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1 long-internal wave
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2 long internal wave
Общая лексика: длинная внутренняя волна -
3 long-internal wave
Океанология: длинная внутренняя волна -
4 длинная внутренняя волна
1) Marine science: long-internal wave2) General subject: long internal waveУниверсальный русско-английский словарь > длинная внутренняя волна
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5 antenna
см. тж. aerial- achromatic antenna
- active antenna
- actual antenna
- adaptive antenna
- aerodiscone antenna
- aerospace antenna
- air-frame antenna
- airplane antenna
- Alexanderson antenna
- Alford antenna
- annular antenna
- antifading antenna
- antistatic antenna
- aperiodic antenna
- aperture antenna
- aperture-angle antenna
- arc antenna
- artificial antenna
- automobile antenna
- auxiliary ship antenna
- axial-symmetric antenna
- backfire antenna
- back-to-back antenna
- band antenna
- base antenna
- batwing antenna
- beam antenna
- Beverage antenna
- biconical antenna
- bifocal antenna
- bilateral antenna
- billboard antenna
- block antenna
- bobtail curtain antenna
- bow-tie antenna
- box antenna
- broadband antenna
- broadbeam antenna
- broadside antenna
- built-in antenna
- butterfly antenna
- cage antenna
- capacitance-feeded antenna
- cap-type antenna
- car antenna
- car TV-antenna
- Cassegrain antenna
- cavity antenna
- center-fed reflector antenna
- cheese antenna
- circular antenna
- coaxial antenna
- coil antenna
- colinear antenna
- combined antenna
- communal antenna
- compact antenna
- complementary-pair antenna
- complementary-steerable antenna
- compound reflector antenna
- cone antenna
- conical antenna
- conical-horn antenna
- conical-monopole antenna
- corner antenna
- corrugated antenna
- cosecant-squared antenna
- coupled antenna
- cradle antenna
- cross antenna
- crossed antenna
- cryogenic antenna
- cubical antenna
- curtain rhombic antenna
- custom-configured antenna
- custom-made antenna
- cylinder antenna
- deer-horn antenna
- delta-loop antenna
- despun antenna
- diamond antenna
- diamond-loop antenna
- dielectric-rod antenna
- dieletric-lens antenna
- diffraction antenna
- dipole antenna
- direct-aperture antenna
- directed-sector antenna
- directional antenna
- dish antenna
- disk antenna
- disk-cone antenna
- disk-on-rod antenna
- dismountable antenna
- dome antenna
- double-band antenna
- double-square antenna
- doublet antenna
- double-umbrella antenna
- driven antenna
- dual-offset antenna
- dummy antenna
- earth-coverage antenna
- electric-pair antenna
- electronically scanned antenna
- electronically steerable antenna
- elementary antenna
- eleven-element antenna
- embedded-wire anti-ice antenna
- emergency antenna
- emergency ship antenna
- empty-helix antenna
- end-fire antenna
- E-plane-type pillbox antenna
- equiangular-spiral antenna
- exciting antenna
- factory-made antenna
- fan antenna
- fan-beam antenna
- fanned-beam antenna
- ferrite-rod antenna
- filament antenna
- filter-plexed antenna
- fin antenna
- finding antenna
- fin-mounted antenna
- fishbone antenna
- fishpole antenna
- flagpole antenna
- flat antenna
- flat-top antenna
- flexible antenna
- flush-mounted antenna
- FM unipolar antenna
- foldable antenna
- fold-down antenna
- four-element antenna
- four-tier antenna
- frame antenna
- Fresnel antenna
- full-band antenna
- fully steerable antenna
- glass-mount antenna
- glass-plastic antenna
- global coverage antenna
- GP antenna
- Gregorian antenna
- ground-to-air antenna
- half-pillbox antenna
- half-rhomb antenna
- half-slot antenna
- half-wave antenna
- halo antenna
- harmonic antenna
- hectometer antenna
- helical antenna
- H-field antenna
- high-efficient antenna
- high-impact antenna
- hoghorn antenna
- horizontally-polarized antenna
- horn-lens antenna
- H-plane antenna
- hula-loop antenna
- hyperbolic antenna
- image antenna
- imaging antenna
- indoor antenna
- instrumentation antenna
- instrument-panel antenna
- internal antenna
- intersatellite antenna
- inverse Cassegrain antenna
- inverted vee antenna
- IR-antenna
- isotrope antenna
- isotropic antenna
- laminated antenna
- L-antenna
- lazy H antenna
- LB-antenna
- leaky-wave antenna
- lens antenna
- linear antenna
- linear-conductor antenna
- locomotive antenna
- log-periodic antenna
- long wire antenna
- long-conductor antenna
- long-range antenna
- loop antenna
- loop-monopole antenna
- loop-stick antenna
- low-angle antenna
- low-frequency antenna
- low-silhoette antenna
- LP antenna
- magnetic antenna
- magnetic-based antenna
- magnetic-cored antenna
- magnetic-dipole antenna
- magnetic-sole antenna
- main ship antenna
- mains antenna
- manypole antenna
- mast antenna
- master antenna
- matched-filter antenna
- meander-type chain antenna
- metallic antenna
- microwave antenna
- miniloop antenna
- mirror antenna
- monoconical antenna
- monopillar helix antenna
- monopole antenna
- monopole-notch antenna
- monopulse antenna
- multiband antenna
- multibeam antenna
- multichannel antenna
- multielement dipole antenna
- multifeed antenna
- multilevel antenna
- multilobed antenna
- multimode antenna
- multiple antenna
- multiple-beam antenna
- multiunit antenna
- MW/DW antenna
- narrow-band antenna
- narrow-beam antenna
- near-field antenna
- near-field Cassegrain antenna
- near-surface antenna
- noise antenna
- noise-protected antenna
- nondirectional antenna
- nonresonant antenna
- notch antenna
- offset antenna
- off-surface antenna
- omniazimuthal antenna
- omnidirectional antenna
- open antenna
- orthogonal antennas
- outdoor antenna
- outer frame antenna
- outer pager antenna
- overtuned antenna
- paddle antenna
- paired antenna
- parabolic-dish antenna
- paraboloid antenna
- paracylinder antenna
- passive antenna
- paste-on antenna
- paste-on-type antenna
- pencil-beam antenna
- periodic antenna
- periscope antenna
- pickup antenna
- piggyback antenna
- pill-box antenna
- pin antenna
- pivot antenna
- planar antenna
- planar-array antenna
- plastic antenna
- plate antenna
- plural-beam antenna
- pocket antenna
- polar antenna
- prepositioned antenna
- prime-focal antenna
- progressive wave antenna
- pylon antenna
- pyramidal antenna
- quadrate antenna
- quarter-wave antenna
- radio-relay antenna
- reference antenna
- reflective array antenna
- reflector antenna
- replaceable-elongated antenna
- reserve antenna
- resonance antenna
- resonant antenna
- retrodirective antenna
- retroreflector antenna
- rhombic antenna
- ribbon antenna
- rib-mesh antenna
- ring antenna
- rod antenna
- roof antenna
- roof-top antenna
- room antenna
- rotatable antenna
- round diagram antenna
- running wave antenna
- satcom antenna
- satellite-communication antenna
- satellite-to-earth station antenna
- satellite-to-satellite antenna
- SB-antenna
- scimitar antenna
- scin antenna
- sector antenna
- sectoral antenna
- self-phasing antenna
- self-resonant antenna
- sense antenna
- sensing antenna
- series-fed vertical antenna
- seven-element antenna
- shaped-beam antenna
- sharp directional antenna
- shorted antenna
- Shpindler antenna
- shunt-excited antenna
- shunt-fed vertical antenna
- single-band antenna
- single-channel antenna
- single-element antenna
- single-horn antenna
- single-polarized antenna
- sixteen-element antenna
- slave antenna
- sleeve antenna
- sleeve-dipole antenna
- slope beam antenna
- slot antenna
- slotted-ring antenna
- solid antenna
- spaced antennas
- space-erected antenna
- spark-proof antenna
- spherical antenna
- spiderweb antenna
- spike antenna
- spiral antenna
- spiral-helix antenna
- spiral-phase antenna
- split-beam antenna
- square antenna
- stacked antenna
- stacked-dipole antenna
- standard antenna
- standing wave antenna
- static antenna
- stationary antenna
- steerable antenna
- stowable antenna
- strength antenna
- stripline antenna
- stripline-slot antenna
- stub-matched antenna
- submarine receiving antenna
- submarine transmitting antenna
- subwavelength antenna
- suppressed antenna
- surface wave antenna
- surrogate antenna
- suspended-patch antenna
- symmetrical antenna
- synphased antenna
- synthetic antenna
- synthetic-aperture antenna
- T-antenna
- telemetering antenna
- telescopic antenna
- television receive only antenna
- terminal antenna
- terrestrial-microwave point-to-point horn antenna
- test antenna
- three-band antenna
- three-element antenna
- three-sector antenna
- tiny antenna
- tower antenna
- tower-type antenna
- trailing antenna
- transceiving redirecting antenna
- transistorized antenna
- transmitting-receiving antenna
- trap-loaded antenna
- traveling-wave antenna
- triangular antenna
- triple-square antenna
- tripole antenna
- trumpet antenna
- turnstile antenna
- TV-antenna
- twelve-channel antenna
- two-element antenna
- Tx antenna
- UHF-antenna
- umbrella antenna
- unipole antenna
- unipole-notch antenna
- universal antenna
- unpositioned antenna
- USB-antenna
- V-antenna
- vertical antenna
- vertical polarization antenna
- vibrator antenna
- Vivaldi antenna
- V-strip antenna
- wave-channel antenna
- waveguide antenna
- whip antenna
- wide-band antenna
- wire antenna
- world-wide receiving antenna
- Wullenweber antenna
- X-beam antenna
- Yagi antenna
- Yagi-Uda antenna
- zig-zag antenna
- zoned antennaEnglish-Russian dictionary of telecommunications and their abbreviations > antenna
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6 line
1) англ. линия ( связи)2) контур; электроцепь•- access line
- acoustic delay line
- acoustic line
- active line
- adjustable line
- air-strip transmission line
- air-suspend strip line
- alternate-phone line
- analog-junction line
- artificial-cable line
- artificial-transmission line
- associated line
- asymmetrical digital subscriber line
- audio-communication line
- automatic binary data link line
- available line
- backbone line
- balanced aerial line
- balanced cable line
- balanced line
- balanced transmission line
- beaded-transmission line
- branch bus line
- branch line
- bridging line
- bus line
- busy line
- cable line
- called line
- calling line
- carrier line
- central-office line
- coaxial line
- coaxial-cable line
- coaxial-transmission line
- common-talking line
- common-use line
- communication line
- compressed SLIP line
- contact-wire line
- control line
- coplanar transmission line
- coupled-transmission lines
- crawl line
- current line
- customer line
- data line
- data-conversion line
- data-transmission line
- dc line
- dead line
- dedicated line
- delay line
- dial line
- dialed line
- dial-up line
- digital active line
- digital delay line
- digital junction line
- digital relay line
- direct line
- disconnected line
- disengaged line
- distributed line
- drive line
- dual-use line
- end line
- exchange line
- exciting line
- exclusive line
- executive line
- exponential-transmission line
- extended-subscriber line
- external communication line
- faulted line
- feed line
- few-channel relay line
- fiber-optic communication line
- flyback line
- Fucashime-to-Camae line
- ground-return line
- hairpin line
- half-wave transmission line
- helix line
- helix-transmission line
- home line
- horizontal line
- hot line
- idle line
- inactive line
- incoming local line
- incoming trunk line
- individual line
- Indonesia-to-Singapore coaxial-cable line
- inductive-communication line
- interconnection line
- internal communication line
- internal connection line
- international communication line
- interswitchboard line
- intraareal relay line
- inverted-microstrip line
- land line
- leased line
- Lecher line
- limiting mode line
- link line
- load line
- local cable line
- local line
- locked-in line
- long line
- long-distance line
- loss-free line
- lossy line
- lunar line
- magnetostatic delay line
- main line
- main radio relay line
- matched transmission line
- microslot line
- microstrip line
- microwave acoustic delay line
- mismatch-slotted line
- multidrop line
- multistation party line
- multiterminal line
- nonresonant line
- nonshielded transmission line
- nonuniform transmission line
- n-wire subscriber line
- offnet access line
- open-circuited line
- open-phase line
- outer communication line
- outgoing line
- outward line
- Pacific Ocean cable line
- party line
- phase-compensating line
- phasing line
- physical line
- pipeline-microwave line
- point-to-point line
- poor quality line
- printer line
- private line
- public line
- quarter-wave line
- quartz delay line
- radio-frequency line
- radio-frequency transmission line
- receiving line
- reflection line
- relay line
- remote subscriber line
- reporting line
- reserved line
- retrace line
- return line
- ring power transmission line
- road communication line
- scan line
- scanning line
- semipermanent line
- shielded transmission line
- signal line
- signaling line
- single-cable communication line
- single-interval tropospheric line
- single-subscriber line
- single-wire communication line
- single-wire line
- slotted line
- sonic delay line
- space communication line
- special-grade access line
- spectrum line
- strip line
- strip transmission line
- strobe line
- stub-supported line
- submarine line
- submarine-cable line
- subscriber line
- surface wave line
- surface wave transmission line
- T1 line
- T3 line
- tapped-delay line
- telecommunication line
- telegraph line
- telephone line
- terrestrial line
- three-cable communication line
- tie line
- toll line
- transatlantic fiber optic communication line
- transatlantic telephone line
- transocean-telegraph line
- transverse-junction line
- traveling line
- tropospheric line
- trunk junction line
- trunk line
- tunnel guide line
- TV-line
- two-cable communication line
- two-wire communication line
- two-wire line
- two-wire-rail line
- unbalanced line
- unbalanced transmission line
- uniform line
- uniform transmission line
- waiting line
- waveguide line
- wire lineEnglish-Russian dictionary of telecommunications and their abbreviations > line
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7 washer
1) шайба; кольцо; прокладка; диск2) моечная машина; промыватель•- C washer- C-style washer
- adjusting washer
- air washer
- angle washer
- Belleville washer
- Belleville-type washer
- bent washer
- bevel washer
- captive washer
- castle washer
- check washer
- convex washer
- coolant washer
- countersunk external toothed lock washer
- countersunk serrated external toothed lock washer
- cup washer
- curved spring washer
- disk spring washer
- distance washer
- double coil spring lock washer
- elastic washer
- end washer
- external lock washer
- external tab washer
- external-internal lock washer
- felt washer
- horseshoe washer
- internal lock washer
- internal tab washer
- jet washer
- joint washer
- Kantlink lock washer
- lock washer with external teeth
- lock washer with internal teeth
- lock washer
- locking washer
- nib washer
- nylon washer
- open washer
- packing washer
- parts washer
- plain washer
- plastic washer
- plate washer
- power washer
- quick-detachable washer
- retaining washer
- rubber washer
- safety washer
- saucer washer
- serrated lock washer with external teeth
- serrated lock washer with internal teeth
- shakeproof washer
- single coil spring lock washer with square ends
- single coil spring lock washer with tang ends
- slip washer
- slot washer
- slotted washer
- spacing washer
- spherical seat washer
- spherical washer
- spray washer
- spray-type washer
- spring lock washer
- spring washer
- square taper washer
- square washer
- suspended washer
- swing washer
- swivel washer
- tab washer with long tab and wing
- tab washer with long tab
- tab washer
- taper washer
- tapered washer
- thickening washer
- thrust washer
- tongued lock washer
- toothed washer
- U-washer
- wave spring washer
- wide bearing lock washerEnglish-Russian dictionary of mechanical engineering and automation > washer
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8 Historical Portugal
Before Romans described western Iberia or Hispania as "Lusitania," ancient Iberians inhabited the land. Phoenician and Greek trading settlements grew up in the Tagus estuary area and nearby coasts. Beginning around 202 BCE, Romans invaded what is today southern Portugal. With Rome's defeat of Carthage, Romans proceeded to conquer and rule the western region north of the Tagus, which they named Roman "Lusitania." In the fourth century CE, as Rome's rule weakened, the area experienced yet another invasion—Germanic tribes, principally the Suevi, who eventually were Christianized. During the sixth century CE, the Suevi kingdom was superseded by yet another Germanic tribe—the Christian Visigoths.A major turning point in Portugal's history came in 711, as Muslim armies from North Africa, consisting of both Arab and Berber elements, invaded the Iberian Peninsula from across the Straits of Gibraltar. They entered what is now Portugal in 714, and proceeded to conquer most of the country except for the far north. For the next half a millennium, Islam and Muslim presence in Portugal left a significant mark upon the politics, government, language, and culture of the country.Islam, Reconquest, and Portugal Created, 714-1140The long frontier struggle between Muslim invaders and Christian communities in the north of the Iberian peninsula was called the Reconquista (Reconquest). It was during this struggle that the first dynasty of Portuguese kings (Burgundian) emerged and the independent monarchy of Portugal was established. Christian forces moved south from what is now the extreme north of Portugal and gradually defeated Muslim forces, besieging and capturing towns under Muslim sway. In the ninth century, as Christian forces slowly made their way southward, Christian elements were dominant only in the area between Minho province and the Douro River; this region became known as "territorium Portu-calense."In the 11th century, the advance of the Reconquest quickened as local Christian armies were reinforced by crusading knights from what is now France and England. Christian forces took Montemor (1034), at the Mondego River; Lamego (1058); Viseu (1058); and Coimbra (1064). In 1095, the king of Castile and Léon granted the country of "Portu-cale," what became northern Portugal, to a Burgundian count who had emigrated from France. This was the foundation of Portugal. In 1139, a descendant of this count, Afonso Henriques, proclaimed himself "King of Portugal." He was Portugal's first monarch, the "Founder," and the first of the Burgundian dynasty, which ruled until 1385.The emergence of Portugal in the 12th century as a separate monarchy in Iberia occurred before the Christian Reconquest of the peninsula. In the 1140s, the pope in Rome recognized Afonso Henriques as king of Portugal. In 1147, after a long, bloody siege, Muslim-occupied Lisbon fell to Afonso Henriques's army. Lisbon was the greatest prize of the 500-year war. Assisting this effort were English crusaders on their way to the Holy Land; the first bishop of Lisbon was an Englishman. When the Portuguese captured Faro and Silves in the Algarve province in 1248-50, the Reconquest of the extreme western portion of the Iberian peninsula was complete—significantly, more than two centuries before the Spanish crown completed the Reconquest of the eastern portion by capturing Granada in 1492.Consolidation and Independence of Burgundian Portugal, 1140-1385Two main themes of Portugal's early existence as a monarchy are the consolidation of control over the realm and the defeat of a Castil-ian threat from the east to its independence. At the end of this period came the birth of a new royal dynasty (Aviz), which prepared to carry the Christian Reconquest beyond continental Portugal across the straits of Gibraltar to North Africa. There was a variety of motives behind these developments. Portugal's independent existence was imperiled by threats from neighboring Iberian kingdoms to the north and east. Politics were dominated not only by efforts against the Muslims inPortugal (until 1250) and in nearby southern Spain (until 1492), but also by internecine warfare among the kingdoms of Castile, Léon, Aragon, and Portugal. A final comeback of Muslim forces was defeated at the battle of Salado (1340) by allied Castilian and Portuguese forces. In the emerging Kingdom of Portugal, the monarch gradually gained power over and neutralized the nobility and the Church.The historic and commonplace Portuguese saying "From Spain, neither a good wind nor a good marriage" was literally played out in diplomacy and war in the late 14th-century struggles for mastery in the peninsula. Larger, more populous Castile was pitted against smaller Portugal. Castile's Juan I intended to force a union between Castile and Portugal during this era of confusion and conflict. In late 1383, Portugal's King Fernando, the last king of the Burgundian dynasty, suddenly died prematurely at age 38, and the Master of Aviz, Portugal's most powerful nobleman, took up the cause of independence and resistance against Castile's invasion. The Master of Aviz, who became King João I of Portugal, was able to obtain foreign assistance. With the aid of English archers, Joao's armies defeated the Castilians in the crucial battle of Aljubarrota, on 14 August 1385, a victory that assured the independence of the Portuguese monarchy from its Castilian nemesis for several centuries.Aviz Dynasty and Portugal's First Overseas Empire, 1385-1580The results of the victory at Aljubarrota, much celebrated in Portugal's art and monuments, and the rise of the Aviz dynasty also helped to establish a new merchant class in Lisbon and Oporto, Portugal's second city. This group supported King João I's program of carrying the Reconquest to North Africa, since it was interested in expanding Portugal's foreign commerce and tapping into Muslim trade routes and resources in Africa. With the Reconquest against the Muslims completed in Portugal and the threat from Castile thwarted for the moment, the Aviz dynasty launched an era of overseas conquest, exploration, and trade. These efforts dominated Portugal's 15th and 16th centuries.The overseas empire and age of Discoveries began with Portugal's bold conquest in 1415 of the Moroccan city of Ceuta. One royal member of the 1415 expedition was young, 21-year-old Prince Henry, later known in history as "Prince Henry the Navigator." His part in the capture of Ceuta won Henry his knighthood and began Portugal's "Marvelous Century," during which the small kingdom was counted as a European and world power of consequence. Henry was the son of King João I and his English queen, Philippa of Lancaster, but he did not inherit the throne. Instead, he spent most of his life and his fortune, and that of the wealthy military Order of Christ, on various imperial ventures and on voyages of exploration down the African coast and into the Atlantic. While mythology has surrounded Henry's controversial role in the Discoveries, and this role has been exaggerated, there is no doubt that he played a vital part in the initiation of Portugal's first overseas empire and in encouraging exploration. He was naturally curious, had a sense of mission for Portugal, and was a strong leader. He also had wealth to expend; at least a third of the African voyages of the time were under his sponsorship. If Prince Henry himself knew little science, significant scientific advances in navigation were made in his day.What were Portugal's motives for this new imperial effort? The well-worn historical cliche of "God, Glory, and Gold" can only partly explain the motivation of a small kingdom with few natural resources and barely 1 million people, which was greatly outnumbered by the other powers it confronted. Among Portuguese objectives were the desire to exploit known North African trade routes and resources (gold, wheat, leather, weaponry, and other goods that were scarce in Iberia); the need to outflank the Muslim world in the Mediterranean by sailing around Africa, attacking Muslims en route; and the wish to ally with Christian kingdoms beyond Africa. This enterprise also involved a strategy of breaking the Venetian spice monopoly by trading directly with the East by means of discovering and exploiting a sea route around Africa to Asia. Besides the commercial motives, Portugal nurtured a strong crusading sense of Christian mission, and various classes in the kingdom saw an opportunity for fame and gain.By the time of Prince Henry's death in 1460, Portugal had gained control of the Atlantic archipelagos of the Azores and Madeiras, begun to colonize the Cape Verde Islands, failed to conquer the Canary Islands from Castile, captured various cities on Morocco's coast, and explored as far as Senegal, West Africa, down the African coast. By 1488, Bar-tolomeu Dias had rounded the Cape of Good Hope in South Africa and thereby discovered the way to the Indian Ocean.Portugal's largely coastal African empire and later its fragile Asian empire brought unexpected wealth but were purchased at a high price. Costs included wars of conquest and defense against rival powers, manning the far-flung navel and trade fleets and scattered castle-fortresses, and staffing its small but fierce armies, all of which entailed a loss of skills and population to maintain a scattered empire. Always short of capital, the monarchy became indebted to bankers. There were many defeats beginning in the 16th century at the hands of the larger imperial European monarchies (Spain, France, England, and Holland) and many attacks on Portugal and its strung-out empire. Typically, there was also the conflict that arose when a tenuously held world empire that rarely if ever paid its way demanded finance and manpower Portugal itself lacked.The first 80 years of the glorious imperial era, the golden age of Portugal's imperial power and world influence, was an African phase. During 1415-88, Portuguese navigators and explorers in small ships, some of them caravelas (caravels), explored the treacherous, disease-ridden coasts of Africa from Morocco to South Africa beyond the Cape of Good Hope. By the 1470s, the Portuguese had reached the Gulf of Guinea and, in the early 1480s, what is now Angola. Bartolomeu Dias's extraordinary voyage of 1487-88 to South Africa's coast and the edge of the Indian Ocean convinced Portugal that the best route to Asia's spices and Christians lay south, around the tip of southern Africa. Between 1488 and 1495, there was a hiatus caused in part by domestic conflict in Portugal, discussion of resources available for further conquests beyond Africa in Asia, and serious questions as to Portugal's capacity to reach beyond Africa. In 1495, King Manuel and his council decided to strike for Asia, whatever the consequences. In 1497-99, Vasco da Gama, under royal orders, made the epic two-year voyage that discovered the sea route to western India (Asia), outflanked Islam and Venice, and began Portugal's Asian empire. Within 50 years, Portugal had discovered and begun the exploitation of its largest colony, Brazil, and set up forts and trading posts from the Middle East (Aden and Ormuz), India (Calicut, Goa, etc.), Malacca, and Indonesia to Macau in China.By the 1550s, parts of its largely coastal, maritime trading post empire from Morocco to the Moluccas were under siege from various hostile forces, including Muslims, Christians, and Hindi. Although Moroccan forces expelled the Portuguese from the major coastal cities by 1550, the rival European monarchies of Castile (Spain), England, France, and later Holland began to seize portions of her undermanned, outgunned maritime empire.In 1580, Phillip II of Spain, whose mother was a Portuguese princess and who had a strong claim to the Portuguese throne, invaded Portugal, claimed the throne, and assumed control over the realm and, by extension, its African, Asian, and American empires. Phillip II filled the power vacuum that appeared in Portugal following the loss of most of Portugal's army and its young, headstrong King Sebastião in a disastrous war in Morocco. Sebastiao's death in battle (1578) and the lack of a natural heir to succeed him, as well as the weak leadership of the cardinal who briefly assumed control in Lisbon, led to a crisis that Spain's strong monarch exploited. As a result, Portugal lost its independence to Spain for a period of 60 years.Portugal under Spanish Rule, 1580-1640Despite the disastrous nature of Portugal's experience under Spanish rule, "The Babylonian Captivity" gave birth to modern Portuguese nationalism, its second overseas empire, and its modern alliance system with England. Although Spain allowed Portugal's weakened empire some autonomy, Spanish rule in Portugal became increasingly burdensome and unacceptable. Spain's ambitious imperial efforts in Europe and overseas had an impact on the Portuguese as Spain made greater and greater demands on its smaller neighbor for manpower and money. Portugal's culture underwent a controversial Castilianization, while its empire became hostage to Spain's fortunes. New rival powers England, France, and Holland attacked and took parts of Spain's empire and at the same time attacked Portugal's empire, as well as the mother country.Portugal's empire bore the consequences of being attacked by Spain's bitter enemies in what was a form of world war. Portuguese losses were heavy. By 1640, Portugal had lost most of its Moroccan cities as well as Ceylon, the Moluccas, and sections of India. With this, Portugal's Asian empire was gravely weakened. Only Goa, Damão, Diu, Bombay, Timor, and Macau remained and, in Brazil, Dutch forces occupied the northeast.On 1 December 1640, long commemorated as a national holiday, Portuguese rebels led by the duke of Braganza overthrew Spanish domination and took advantage of Spanish weakness following a more serious rebellion in Catalonia. Portugal regained independence from Spain, but at a price: dependence on foreign assistance to maintain its independence in the form of the renewal of the alliance with England.Restoration and Second Empire, 1640-1822Foreign affairs and empire dominated the restoration era and aftermath, and Portugal again briefly enjoyed greater European power and prestige. The Anglo-Portuguese Alliance was renewed and strengthened in treaties of 1642, 1654, and 1661, and Portugal's independence from Spain was underwritten by English pledges and armed assistance. In a Luso-Spanish treaty of 1668, Spain recognized Portugal's independence. Portugal's alliance with England was a marriage of convenience and necessity between two monarchies with important religious, cultural, and social differences. In return for legal, diplomatic, and trade privileges, as well as the use during war and peace of Portugal's great Lisbon harbor and colonial ports for England's navy, England pledged to protect Portugal and its scattered empire from any attack. The previously cited 17th-century alliance treaties were renewed later in the Treaty of Windsor, signed in London in 1899. On at least 10 different occasions after 1640, and during the next two centuries, England was central in helping prevent or repel foreign invasions of its ally, Portugal.Portugal's second empire (1640-1822) was largely Brazil-oriented. Portuguese colonization, exploitation of wealth, and emigration focused on Portuguese America, and imperial revenues came chiefly from Brazil. Between 1670 and 1740, Portugal's royalty and nobility grew wealthier on funds derived from Brazilian gold, diamonds, sugar, tobacco, and other crops, an enterprise supported by the Atlantic slave trade and the supply of African slave labor from West Africa and Angola. Visitors today can see where much of that wealth was invested: Portugal's rich legacy of monumental architecture. Meanwhile, the African slave trade took a toll in Angola and West Africa.In continental Portugal, absolutist monarchy dominated politics and government, and there was a struggle for position and power between the monarchy and other institutions, such as the Church and nobility. King José I's chief minister, usually known in history as the marquis of Pombal (ruled 1750-77), sharply suppressed the nobility and theChurch (including the Inquisition, now a weak institution) and expelled the Jesuits. Pombal also made an effort to reduce economic dependence on England, Portugal's oldest ally. But his successes did not last much beyond his disputed time in office.Beginning in the late 18th century, the European-wide impact of the French Revolution and the rise of Napoleon placed Portugal in a vulnerable position. With the monarchy ineffectively led by an insane queen (Maria I) and her indecisive regent son (João VI), Portugal again became the focus of foreign ambition and aggression. With England unable to provide decisive assistance in time, France—with Spain's consent—invaded Portugal in 1807. As Napoleon's army under General Junot entered Lisbon meeting no resistance, Portugal's royal family fled on a British fleet to Brazil, where it remained in exile until 1821. In the meantime, Portugal's overseas empire was again under threat. There was a power vacuum as the monarch was absent, foreign armies were present, and new political notions of liberalism and constitutional monarchy were exciting various groups of citizens.Again England came to the rescue, this time in the form of the armies of the duke of Wellington. Three successive French invasions of Portugal were defeated and expelled, and Wellington succeeded in carrying the war against Napoleon across the Portuguese frontier into Spain. The presence of the English army, the new French-born liberal ideas, and the political vacuum combined to create revolutionary conditions. The French invasions and the peninsular wars, where Portuguese armed forces played a key role, marked the beginning of a new era in politics.Liberalism and Constitutional Monarchy, 1822-1910During 1807-22, foreign invasions, war, and civil strife over conflicting political ideas gravely damaged Portugal's commerce, economy, and novice industry. The next terrible blow was the loss of Brazil in 1822, the jewel in the imperial crown. Portugal's very independence seemed to be at risk. In vain, Portugal sought to resist Brazilian independence by force, but in 1825 it formally acknowledged Brazilian independence by treaty.Portugal's slow recovery from the destructive French invasions and the "war of independence" was complicated by civil strife over the form of constitutional monarchy that best suited Portugal. After struggles over these issues between 1820 and 1834, Portugal settled somewhat uncertainly into a moderate constitutional monarchy whose constitution (Charter of 1826) lent it strong political powers to exert a moderating influence between the executive and legislative branches of the government. It also featured a new upper middle class based on land ownership and commerce; a Catholic Church that, although still important, lived with reduced privileges and property; a largely African (third) empire to which Lisbon and Oporto devoted increasing spiritual and material resources, starting with the liberal imperial plans of 1836 and 1851, and continuing with the work of institutions like the Lisbon Society of Geography (established 1875); and a mass of rural peasants whose bonds to the land weakened after 1850 and who began to immigrate in increasing numbers to Brazil and North America.Chronic military intervention in national politics began in 19th-century Portugal. Such intervention, usually commencing with coups or pronunciamentos (military revolts), was a shortcut to the spoils of political office and could reflect popular discontent as well as the power of personalities. An early example of this was the 1817 golpe (coup) attempt of General Gomes Freire against British military rule in Portugal before the return of King João VI from Brazil. Except for a more stable period from 1851 to 1880, military intervention in politics, or the threat thereof, became a feature of the constitutional monarchy's political life, and it continued into the First Republic and the subsequent Estado Novo.Beginning with the Regeneration period (1851-80), Portugal experienced greater political stability and economic progress. Military intervention in politics virtually ceased; industrialization and construction of railroads, roads, and bridges proceeded; two political parties (Regenerators and Historicals) worked out a system of rotation in power; and leading intellectuals sparked a cultural revival in several fields. In 19th-century literature, there was a new golden age led by such figures as Alexandre Herculano (historian), Eça de Queirós (novelist), Almeida Garrett (playwright and essayist), Antero de Quental (poet), and Joaquim Oliveira Martins (historian and social scientist). In its third overseas empire, Portugal attempted to replace the slave trade and slavery with legitimate economic activities; to reform the administration; and to expand Portuguese holdings beyond coastal footholds deep into the African hinterlands in West, West Central, and East Africa. After 1841, to some extent, and especially after 1870, colonial affairs, combined with intense nationalism, pressures for economic profit in Africa, sentiment for national revival, and the drift of European affairs would make or break Lisbon governments.Beginning with the political crisis that arose out of the "English Ultimatum" affair of January 1890, the monarchy became discredtted and identified with the poorly functioning government, political parties splintered, and republicanism found more supporters. Portugal participated in the "Scramble for Africa," expanding its African holdings, but failed to annex territory connecting Angola and Mozambique. A growing foreign debt and state bankruptcy as of the early 1890s damaged the constitutional monarchy's reputation, despite the efforts of King Carlos in diplomacy, the renewal of the alliance in the Windsor Treaty of 1899, and the successful if bloody colonial wars in the empire (1880-97). Republicanism proclaimed that Portugal's weak economy and poor society were due to two historic institutions: the monarchy and the Catholic Church. A republic, its stalwarts claimed, would bring greater individual liberty; efficient, if more decentralized government; and a stronger colonial program while stripping the Church of its role in both society and education.As the monarchy lost support and republicans became more aggressive, violence increased in politics. King Carlos I and his heir Luís were murdered in Lisbon by anarchist-republicans on 1 February 1908. Following a military and civil insurrection and fighting between monarchist and republican forces, on 5 October 1910, King Manuel II fled Portugal and a republic was proclaimed.First Parliamentary Republic, 1910-26Portugal's first attempt at republican government was the most unstable, turbulent parliamentary republic in the history of 20th-century Western Europe. During a little under 16 years of the republic, there were 45 governments, a number of legislatures that did not complete normal terms, military coups, and only one president who completed his four-year term in office. Portuguese society was poorly prepared for this political experiment. Among the deadly legacies of the monarchy were a huge public debt; a largely rural, apolitical, and illiterate peasant population; conflict over the causes of the country's misfortunes; and lack of experience with a pluralist, democratic system.The republic had some talented leadership but lacked popular, institutional, and economic support. The 1911 republican constitution established only a limited democracy, as only a small portion of the adult male citizenry was eligible to vote. In a country where the majority was Catholic, the republic passed harshly anticlerical laws, and its institutions and supporters persecuted both the Church and its adherents. During its brief disjointed life, the First Republic drafted important reform plans in economic, social, and educational affairs; actively promoted development in the empire; and pursued a liberal, generous foreign policy. Following British requests for Portugal's assistance in World War I, Portugal entered the war on the Allied side in March 1916 and sent armies to Flanders and Portuguese Africa. Portugal's intervention in that conflict, however, was too costly in many respects, and the ultimate failure of the republic in part may be ascribed to Portugal's World War I activities.Unfortunately for the republic, its time coincided with new threats to Portugal's African possessions: World War I, social and political demands from various classes that could not be reconciled, excessive military intervention in politics, and, in particular, the worst economic and financial crisis Portugal had experienced since the 16th and 17th centuries. After the original Portuguese Republican Party (PRP, also known as the "Democrats") splintered into three warring groups in 1912, no true multiparty system emerged. The Democrats, except for only one or two elections, held an iron monopoly of electoral power, and political corruption became a major issue. As extreme right-wing dictatorships elsewhere in Europe began to take power in Italy (1922), neighboring Spain (1923), and Greece (1925), what scant popular support remained for the republic collapsed. Backed by a right-wing coalition of landowners from Alentejo, clergy, Coimbra University faculty and students, Catholic organizations, and big business, career military officers led by General Gomes da Costa executed a coup on 28 May 1926, turned out the last republican government, and established a military government.The Estado Novo (New State), 1926-74During the military phase (1926-32) of the Estado Novo, professional military officers, largely from the army, governed and administered Portugal and held key cabinet posts, but soon discovered that the military possessed no magic formula that could readily solve the problems inherited from the First Republic. Especially during the years 1926-31, the military dictatorship, even with its political repression of republican activities and institutions (military censorship of the press, political police action, and closure of the republic's rowdy parliament), was characterized by similar weaknesses: personalism and factionalism; military coups and political instability, including civil strife and loss of life; state debt and bankruptcy; and a weak economy. "Barracks parliamentarism" was not an acceptable alternative even to the "Nightmare Republic."Led by General Óscar Carmona, who had replaced and sent into exile General Gomes da Costa, the military dictatorship turned to a civilian expert in finance and economics to break the budget impasse and bring coherence to the disorganized system. Appointed minister of finance on 27 April 1928, the Coimbra University Law School professor of economics Antônio de Oliveira Salazar (1889-1970) first reformed finance, helped balance the budget, and then turned to other concerns as he garnered extraordinary governing powers. In 1930, he was appointed interim head of another key ministry (Colonies) and within a few years had become, in effect, a civilian dictator who, with the military hierarchy's support, provided the government with coherence, a program, and a set of policies.For nearly 40 years after he was appointed the first civilian prime minister in 1932, Salazar's personality dominated the government. Unlike extreme right-wing dictators elsewhere in Europe, Salazar was directly appointed by the army but was never endorsed by a popular political party, street militia, or voter base. The scholarly, reclusive former Coimbra University professor built up what became known after 1932 as the Estado Novo ("New State"), which at the time of its overthrow by another military coup in 1974, was the longest surviving authoritarian regime in Western Europe. The system of Salazar and the largely academic and technocratic ruling group he gathered in his cabinets was based on the central bureaucracy of the state, which was supported by the president of the republic—always a senior career military officer, General Óscar Carmona (1928-51), General Craveiro Lopes (1951-58), and Admiral Américo Tómaz (1958-74)—and the complicity of various institutions. These included a rubber-stamp legislature called the National Assembly (1935-74) and a political police known under various names: PVDE (1932-45), PIDE (1945-69),and DGS (1969-74). Other defenders of the Estado Novo security were paramilitary organizations such as the National Republican Guard (GNR); the Portuguese Legion (PL); and the Portuguese Youth [Movement]. In addition to censorship of the media, theater, and books, there was political repression and a deliberate policy of depoliticization. All political parties except for the approved movement of regime loyalists, the União Nacional or (National Union), were banned.The most vigorous and more popular period of the New State was 1932-44, when the basic structures were established. Never monolithic or entirely the work of one person (Salazar), the New State was constructed with the assistance of several dozen top associates who were mainly academics from law schools, some technocrats with specialized skills, and a handful of trusted career military officers. The 1933 Constitution declared Portugal to be a "unitary, corporative Republic," and pressures to restore the monarchy were resisted. Although some of the regime's followers were fascists and pseudofascists, many more were conservative Catholics, integralists, nationalists, and monarchists of different varieties, and even some reactionary republicans. If the New State was authoritarian, it was not totalitarian and, unlike fascism in Benito Mussolini's Italy or Adolf Hitler's Germany, it usually employed the minimum of violence necessary to defeat what remained a largely fractious, incoherent opposition.With the tumultuous Second Republic and the subsequent civil war in nearby Spain, the regime felt threatened and reinforced its defenses. During what Salazar rightly perceived as a time of foreign policy crisis for Portugal (1936-45), he assumed control of the Ministry of Foreign Affairs. From there, he pursued four basic foreign policy objectives: supporting the Nationalist rebels of General Francisco Franco in the Spanish Civil War (1936-39) and concluding defense treaties with a triumphant Franco; ensuring that General Franco in an exhausted Spain did not enter World War II on the Axis side; maintaining Portuguese neutrality in World War II with a post-1942 tilt toward the Allies, including granting Britain and the United States use of bases in the Azores Islands; and preserving and protecting Portugal's Atlantic Islands and its extensive, if poor, overseas empire in Africa and Asia.During the middle years of the New State (1944-58), many key Salazar associates in government either died or resigned, and there was greater social unrest in the form of unprecedented strikes and clandestine Communist activities, intensified opposition, and new threatening international pressures on Portugal's overseas empire. During the earlier phase of the Cold War (1947-60), Portugal became a steadfast, if weak, member of the US-dominated North Atlantic Treaty Organization alliance and, in 1955, with American support, Portugal joined the United Nations (UN). Colonial affairs remained a central concern of the regime. As of 1939, Portugal was the third largest colonial power in the world and possessed territories in tropical Africa (Angola, Mozambique, Guinea-Bissau, and São Tomé and Príncipe Islands) and the remnants of its 16th-century empire in Asia (Goa, Damão, Diu, East Timor, and Macau). Beginning in the early 1950s, following the independence of India in 1947, Portugal resisted Indian pressures to decolonize Portuguese India and used police forces to discourage internal opposition in its Asian and African colonies.The later years of the New State (1958-68) witnessed the aging of the increasingly isolated but feared Salazar and new threats both at home and overseas. Although the regime easily overcame the brief oppositionist threat from rival presidential candidate General Humberto Delgado in the spring of 1958, new developments in the African and Asian empires imperiled the authoritarian system. In February 1961, oppositionists hijacked the Portuguese ocean liner Santa Maria and, in following weeks, African insurgents in northern Angola, although they failed to expel the Portuguese, gained worldwide media attention, discredited the New State, and began the 13-year colonial war. After thwarting a dissident military coup against his continued leadership, Salazar and his ruling group mobilized military repression in Angola and attempted to develop the African colonies at a faster pace in order to ensure Portuguese control. Meanwhile, the other European colonial powers (Britain, France, Belgium, and Spain) rapidly granted political independence to their African territories.At the time of Salazar's removal from power in September 1968, following a stroke, Portugal's efforts to maintain control over its colonies appeared to be successful. President Americo Tomás appointed Dr. Marcello Caetano as Salazar's successor as prime minister. While maintaining the New State's basic structures, and continuing the regime's essential colonial policy, Caetano attempted wider reforms in colonial administration and some devolution of power from Lisbon, as well as more freedom of expression in Lisbon. Still, a great deal of the budget was devoted to supporting the wars against the insurgencies in Africa. Meanwhile in Asia, Portuguese India had fallen when the Indian army invaded in December 1961. The loss of Goa was a psychological blow to the leadership of the New State, and of the Asian empire only East Timor and Macau remained.The Caetano years (1968-74) were but a hiatus between the waning Salazar era and a new regime. There was greater political freedom and rapid economic growth (5-6 percent annually to late 1973), but Caetano's government was unable to reform the old system thoroughly and refused to consider new methods either at home or in the empire. In the end, regime change came from junior officers of the professional military who organized the Armed Forces Movement (MFA) against the Caetano government. It was this group of several hundred officers, mainly in the army and navy, which engineered a largely bloodless coup in Lisbon on 25 April 1974. Their unexpected action brought down the 48-year-old New State and made possible the eventual establishment and consolidation of democratic governance in Portugal, as well as a reorientation of the country away from the Atlantic toward Europe.Revolution of Carnations, 1974-76Following successful military operations of the Armed Forces Movement against the Caetano government, Portugal experienced what became known as the "Revolution of Carnations." It so happened that during the rainy week of the military golpe, Lisbon flower shops were featuring carnations, and the revolutionaries and their supporters adopted the red carnation as the common symbol of the event, as well as of the new freedom from dictatorship. The MFA, whose leaders at first were mostly little-known majors and captains, proclaimed a three-fold program of change for the new Portugal: democracy; decolonization of the overseas empire, after ending the colonial wars; and developing a backward economy in the spirit of opportunity and equality. During the first 24 months after the coup, there was civil strife, some anarchy, and a power struggle. With the passing of the Estado Novo, public euphoria burst forth as the new provisional military government proclaimed the freedoms of speech, press, and assembly, and abolished censorship, the political police, the Portuguese Legion, Portuguese Youth, and other New State organizations, including the National Union. Scores of political parties were born and joined the senior political party, the Portuguese Community Party (PCP), and the Socialist Party (PS), founded shortly before the coup.Portugal's Revolution of Carnations went through several phases. There was an attempt to take control by radical leftists, including the PCP and its allies. This was thwarted by moderate officers in the army, as well as by the efforts of two political parties: the PS and the Social Democrats (PPD, later PSD). The first phase was from April to September 1974. Provisional president General Antonio Spínola, whose 1974 book Portugal and the Future had helped prepare public opinion for the coup, met irresistible leftist pressures. After Spinola's efforts to avoid rapid decolonization of the African empire failed, he resigned in September 1974. During the second phase, from September 1974 to March 1975, radical military officers gained control, but a coup attempt by General Spínola and his supporters in Lisbon in March 1975 failed and Spínola fled to Spain.In the third phase of the Revolution, March-November 1975, a strong leftist reaction followed. Farm workers occupied and "nationalized" 1.1 million hectares of farmland in the Alentejo province, and radical military officers in the provisional government ordered the nationalization of Portuguese banks (foreign banks were exempted), utilities, and major industries, or about 60 percent of the economic system. There were power struggles among various political parties — a total of 50 emerged—and in the streets there was civil strife among labor, military, and law enforcement groups. A constituent assembly, elected on 25 April 1975, in Portugal's first free elections since 1926, drafted a democratic constitution. The Council of the Revolution (CR), briefly a revolutionary military watchdog committee, was entrenched as part of the government under the constitution, until a later revision. During the chaotic year of 1975, about 30 persons were killed in political frays while unstable provisional governments came and went. On 25 November 1975, moderate military forces led by Colonel Ramalho Eanes, who later was twice elected president of the republic (1976 and 1981), defeated radical, leftist military groups' revolutionary conspiracies.In the meantime, Portugal's scattered overseas empire experienced a precipitous and unprepared decolonization. One by one, the former colonies were granted and accepted independence—Guinea-Bissau (September 1974), Cape Verde Islands (July 1975), and Mozambique (July 1975). Portugal offered to turn over Macau to the People's Republic of China, but the offer was refused then and later negotiations led to the establishment of a formal decolonization or hand-over date of 1999. But in two former colonies, the process of decolonization had tragic results.In Angola, decolonization negotiations were greatly complicated by the fact that there were three rival nationalist movements in a struggle for power. The January 1975 Alvor Agreement signed by Portugal and these three parties was not effectively implemented. A bloody civil war broke out in Angola in the spring of 1975 and, when Portuguese armed forces withdrew and declared that Angola was independent on 11 November 1975, the bloodshed only increased. Meanwhile, most of the white Portuguese settlers from Angola and Mozambique fled during the course of 1975. Together with African refugees, more than 600,000 of these retornados ("returned ones") went by ship and air to Portugal and thousands more to Namibia, South Africa, Brazil, Canada, and the United States.The second major decolonization disaster was in Portugal's colony of East Timor in the Indonesian archipelago. Portugal's capacity to supervise and control a peaceful transition to independence in this isolated, neglected colony was limited by the strength of giant Indonesia, distance from Lisbon, and Portugal's revolutionary disorder and inability to defend Timor. In early December 1975, before Portugal granted formal independence and as one party, FRETILIN, unilaterally declared East Timor's independence, Indonesia's armed forces invaded, conquered, and annexed East Timor. Indonesian occupation encountered East Timorese resistance, and a heavy loss of life followed. The East Timor question remained a contentious international issue in the UN, as well as in Lisbon and Jakarta, for more than 20 years following Indonesia's invasion and annexation of the former colony of Portugal. Major changes occurred, beginning in 1998, after Indonesia underwent a political revolution and allowed a referendum in East Timor to decide that territory's political future in August 1999. Most East Timorese chose independence, but Indonesian forces resisted that verdict untilUN intervention in September 1999. Following UN rule for several years, East Timor attained full independence on 20 May 2002.Consolidation of Democracy, 1976-2000After several free elections and record voter turnouts between 25 April 1975 and June 1976, civil war was averted and Portugal's second democratic republic began to stabilize. The MFA was dissolved, the military were returned to the barracks, and increasingly elected civilians took over the government of the country. The 1976 Constitution was revised several times beginning in 1982 and 1989, in order to reempha-size the principle of free enterprise in the economy while much of the large, nationalized sector was privatized. In June 1976, General Ram-alho Eanes was elected the first constitutional president of the republic (five-year term), and he appointed socialist leader Dr. Mário Soares as prime minister of the first constitutional government.From 1976 to 1985, Portugal's new system featured a weak economy and finances, labor unrest, and administrative and political instability. The difficult consolidation of democratic governance was eased in part by the strong currency and gold reserves inherited from the Estado Novo, but Lisbon seemed unable to cope with high unemployment, new debt, the complex impact of the refugees from Africa, world recession, and the agitation of political parties. Four major parties emerged from the maelstrom of 1974-75, except for the Communist Party, all newly founded. They were, from left to right, the Communists (PCP); the Socialists (PS), who managed to dominate governments and the legislature but not win a majority in the Assembly of the Republic; the Social Democrats (PSD); and the Christian Democrats (CDS). During this period, the annual growth rate was low (l-2 percent), and the nationalized sector of the economy stagnated.Enhanced economic growth, greater political stability, and more effective central government as of 1985, and especially 1987, were due to several developments. In 1977, Portugal applied for membership in the European Economic Community (EEC), now the European Union (EU) since 1993. In January 1986, with Spain, Portugal was granted membership, and economic and financial progress in the intervening years has been significantly influenced by the comparatively large investment, loans, technology, advice, and other assistance from the EEC. Low unemployment, high annual growth rates (5 percent), and moderate inflation have also been induced by the new political and administrative stability in Lisbon. Led by Prime Minister Cavaco Silva, an economist who was trained abroad, the PSD's strong organization, management, and electoral support since 1985 have assisted in encouraging economic recovery and development. In 1985, the PSD turned the PS out of office and won the general election, although they did not have an absolute majority of assembly seats. In 1986, Mário Soares was elected president of the republic, the first civilian to hold that office since the First Republic. In the elections of 1987 and 1991, however, the PSD was returned to power with clear majorities of over 50 percent of the vote.Although the PSD received 50.4 percent of the vote in the 1991 parliamentary elections and held a 42-seat majority in the Assembly of the Republic, the party began to lose public support following media revelations regarding corruption and complaints about Prime Minister Cavaco Silva's perceived arrogant leadership style. President Mário Soares voiced criticism of the PSD's seemingly untouchable majority and described a "tyranny of the majority." Economic growth slowed down. In the parliamentary elections of 1995 and the presidential election of 1996, the PSD's dominance ended for the time being. Prime Minister Antônio Guterres came to office when the PS won the October 1995 elections, and in the subsequent presidential contest, in January 1996, socialist Jorge Sampaio, the former mayor of Lisbon, was elected president of the republic, thus defeating Cavaco Silva's bid. Young and popular, Guterres moved the PS toward the center of the political spectrum. Under Guterres, the PS won the October 1999 parliamentary elections. The PS defeated the PSD but did not manage to win a clear, working majority of seats, and this made the PS dependent upon alliances with smaller parties, including the PCP.In the local elections in December 2001, the PSD's criticism of PS's heavy public spending allowed the PSD to take control of the key cities of Lisbon, Oporto, and Coimbra. Guterres resigned, and parliamentary elections were brought forward from 2004 to March 2002. The PSD won a narrow victory with 40 percent of the votes, and Jose Durão Barroso became prime minister. Having failed to win a majority of the seats in parliament forced the PSD to govern in coalition with the right-wing Popular Party (PP) led by Paulo Portas. Durão Barroso set about reducing government spending by cutting the budgets of local authorities, freezing civil service hiring, and reviving the economy by accelerating privatization of state-owned enterprises. These measures provoked a 24-hour strike by public-sector workers. Durão Barroso reacted with vows to press ahead with budget-cutting measures and imposed a wage freeze on all employees earning more than €1,000, which affected more than one-half of Portugal's work force.In June 2004, Durão Barroso was invited by Romano Prodi to succeed him as president of the European Commission. Durão Barroso accepted and resigned the prime ministership in July. Pedro Santana Lopes, the leader of the PSD, became prime minister. Already unpopular at the time of Durão Barroso's resignation, the PSD-led government became increasingly unpopular under Santana Lopes. A month-long delay in the start of the school year and confusion over his plan to cut taxes and raise public-sector salaries, eroded confidence even more. By November, Santana Lopes's government was so unpopular that President Jorge Sampaio was obliged to dissolve parliament and hold new elections, two years ahead of schedule.Parliamentary elections were held on 20 February 2005. The PS, which had promised the electorate disciplined and transparent governance, educational reform, the alleviation of poverty, and a boost in employment, won 45 percent of the vote and the majority of the seats in parliament. The leader of the PS, José Sôcrates became prime minister on 12 March 2005. In the regularly scheduled presidential elections held on 6 January 2006, the former leader of the PSD and prime minister, Aníbal Cavaco Silva, won a narrow victory and became president on 9 March 2006. With a mass protest, public teachers' strike, and street demonstrations in March 2008, Portugal's media, educational, and social systems experienced more severe pressures. With the spreading global recession beginning in September 2008, Portugal's economic and financial systems became more troubled.Owing to its geographic location on the southwestern most edge of continental Europe, Portugal has been historically in but not of Europe. Almost from the beginning of its existence in the 12th century as an independent monarchy, Portugal turned its back on Europe and oriented itself toward the Atlantic Ocean. After carving out a Christian kingdom on the western portion of the Iberian peninsula, Portuguese kings gradually built and maintained a vast seaborne global empire that became central to the way Portugal understood its individuality as a nation-state. While the creation of this empire allows Portugal to claim an unusual number of "firsts" or distinctions in world and Western history, it also retarded Portugal's economic, social, and political development. It can be reasonably argued that the Revolution of 25 April 1974 was the most decisive event in Portugal's long history because it finally ended Portugal's oceanic mission and view of itself as an imperial power. After the 1974 Revolution, Portugal turned away from its global mission and vigorously reoriented itself toward Europe. Contemporary Portugal is now both in and of Europe.The turn toward Europe began immediately after 25 April 1974. Portugal granted independence to its African colonies in 1975. It was admitted to the European Council and took the first steps toward accession to the European Economic Community (EEC) in 1976. On 28 March 1977, the Portuguese government officially applied for EEC membership. Because of Portugal's economic and social backwardness, which would require vast sums of EEC money to overcome, negotiations for membership were long and difficult. Finally, a treaty of accession was signed on 12 June 1985. Portugal officially joined the EEC (the European Union [EU] since 1993) on 1 January 1986. Since becoming a full-fledged member of the EU, Portugal has been steadily overcoming the economic and social underdevelopment caused by its imperial past and is becoming more like the rest of Europe.Membership in the EU has speeded up the structural transformation of Portugal's economy, which actually began during the Estado Novo. Investments made by the Estado Novo in Portugal's economy began to shift employment out of the agricultural sector, which, in 1950, accounted for 50 percent of Portugal's economically active population. Today, only 10 percent of the economically active population is employed in the agricultural sector (the highest among EU member states); 30 percent in the industrial sector (also the highest among EU member states); and 60 percent in the service sector (the lowest among EU member states). The economically active population numbers about 5,000,000 employed, 56 percent of whom are women. Women workers are the majority of the workforce in the agricultural and service sectors (the highest among the EU member states). The expansion of the service sector has been primarily in health care and education. Portugal has had the lowest unemployment rates among EU member states, with the overall rate never being more than 10 percent of the active population. Since joining the EU, the number of employers increased from 2.6 percent to 5.8 percent of the active population; self-employed from 16 to 19 percent; and employees from 65 to 70 percent. Twenty-six percent of the employers are women. Unemployment tends to hit younger workers in industry and transportation, women employed in domestic service, workers on short-term contracts, and poorly educated workers. Salaried workers earn only 63 percent of the EU average, and hourly workers only one-third to one-half of that earned by their EU counterparts. Despite having had the second highest growth of gross national product (GNP) per inhabitant (after Ireland) among EU member states, the above data suggest that while much has been accomplished in terms of modernizing the Portuguese economy, much remains to be done to bring Portugal's economy up to the level of the "average" EU member state.Membership in the EU has also speeded up changes in Portuguese society. Over the last 30 years, coastalization and urbanization have intensified. Fully 50 percent of Portuguese live in the coastal urban conurbations of Lisbon, Oporto, Braga, Aveiro, Coimbra, Viseu, Évora, and Faro. The Portuguese population is one of the oldest among EU member states (17.3 percent are 65 years of age or older) thanks to a considerable increase in life expectancy at birth (77.87 years for the total population, 74.6 years for men, 81.36 years for women) and one of the lowest birthrates (10.59 births/1,000) in Europe. Family size averages 2.8 persons per household, with the strict nuclear family (one or two generations) in which both parents work being typical. Common law marriages, cohabitating couples, and single-parent households are more and more common. The divorce rate has also increased. "Youth Culture" has developed. The young have their own meeting places, leisure-time activities, and nightlife (bars, clubs, and discos).All Portuguese citizens, whether they have contributed or not, have a right to an old-age pension, invalidity benefits, widowed persons' pension, as well as payments for disabilities, children, unemployment, and large families. There is a national minimum wage (€385 per month), which is low by EU standards. The rapid aging of Portugal's population has changed the ratio of contributors to pensioners to 1.7, the lowest in the EU. This has created deficits in Portugal's social security fund.The adult literacy rate is about 92 percent. Illiteracy is still found among the elderly. Although universal compulsory education up to grade 9 was achieved in 1980, only 21.2 percent of the population aged 25-64 had undergone secondary education, compared to an EU average of 65.7 percent. Portugal's higher education system currently consists of 14 state universities and 14 private universities, 15 state polytechnic institutions, one Catholic university, and one military academy. All in all, Portugal spends a greater percentage of its state budget on education than most EU member states. Despite this high level of expenditure, the troubled Portuguese education system does not perform well. Early leaving and repetition rates are among the highest among EU member states.After the Revolution of 25 April 1974, Portugal created a National Health Service, which today consists of 221 hospitals and 512 medical centers employing 33,751 doctors and 41,799 nurses. Like its education system, Portugal's medical system is inefficient. There are long waiting lists for appointments with specialists and for surgical procedures.Structural changes in Portugal's economy and society mean that social life in Portugal is not too different from that in other EU member states. A mass consumption society has been created. Televisions, telephones, refrigerators, cars, music equipment, mobile phones, and personal computers are commonplace. Sixty percent of Portuguese households possess at least one automobile, and 65 percent of Portuguese own their own home. Portuguese citizens are more aware of their legal rights than ever before. This has resulted in a trebling of the number of legal proceeding since 1960 and an eight-fold increase in the number of lawyers. In general, Portuguese society has become more permissive and secular; the Catholic Church and the armed forces are much less influential than in the past. Portugal's population is also much more culturally, religiously, and ethnically diverse, a consequence of the coming to Portugal of hundreds of thousands of immigrants, mainly from former African colonies.Portuguese are becoming more cosmopolitan and sophisticated through the impact of world media, the Internet, and the World Wide Web. A prime case in point came in the summer and early fall of 1999, with the extraordinary events in East Timor and the massive Portuguese popular responses. An internationally monitored referendum in East Timor, Portugal's former colony in the Indonesian archipelago and under Indonesian occupation from late 1975 to summer 1999, resulted in a vote of 78.5 percent for rejecting integration with Indonesia and for independence. When Indonesian prointegration gangs, aided by the Indonesian military, responded to the referendum with widespread brutality and threatened to reverse the verdict of the referendum, there was a spontaneous popular outpouring of protest in the cities and towns of Portugal. An avalanche of Portuguese e-mail fell on leaders and groups in the UN and in certain countries around the world as Portugal's diplomats, perhaps to compensate for the weak initial response to Indonesian armed aggression in 1975, called for the protection of East Timor as an independent state and for UN intervention to thwart Indonesian action. Using global communications networks, the Portuguese were able to mobilize UN and world public opinion against Indonesian actions and aided the eventual independence of East Timor on 20 May 2002.From the Revolution of 25 April 1974 until the 1990s, Portugal had a large number of political parties, one of the largest Communist parties in western Europe, frequent elections, and endemic cabinet instability. Since the 1990s, the number of political parties has been dramatically reduced and cabinet stability increased. Gradually, the Portuguese electorate has concentrated around two larger parties, the right-of-center Social Democrats (PSD) and the left-of-center Socialist (PS). In the 1980s, these two parties together garnered 65 percent of the vote and 70 percent of the seats in parliament. In 2005, these percentages had risen to 74 percent and 85 percent, respectively. In effect, Portugal is currently a two-party dominant system in which the two largest parties — PS and PSD—alternate in and out of power, not unlike the rotation of the two main political parties (the Regenerators and the Historicals) during the last decades (1850s to 1880s) of the liberal constitutional monarchy. As Portugal's democracy has consolidated, turnout rates for the eligible electorate have declined. In the 1970s, turnout was 85 percent. In Portugal's most recent parliamentary election (2005), turnout had fallen to 65 percent of the eligible electorate.Portugal has benefited greatly from membership in the EU, and whatever doubts remain about the price paid for membership, no Portuguese government in the near future can afford to sever this connection. The vast majority of Portuguese citizens see membership in the EU as a "good thing" and strongly believe that Portugal has benefited from membership. Only the Communist Party opposed membership because it reduces national sovereignty, serves the interests of capitalists not workers, and suffers from a democratic deficit. Despite the high level of support for the EU, Portuguese voters are increasingly not voting in elections for the European Parliament, however. Turnout for European Parliament elections fell from 40 percent of the eligible electorate in the 1999 elections to 38 percent in the 2004 elections.In sum, Portugal's turn toward Europe has done much to overcome its backwardness. However, despite the economic, social, and political progress made since 1986, Portugal has a long way to go before it can claim to be on a par with the level found even in Spain, much less the rest of western Europe. As Portugal struggles to move from underde-velopment, especially in the rural areas away from the coast, it must keep in mind the perils of too rapid modern development, which could damage two of its most precious assets: its scenery and environment. The growth and future prosperity of the economy will depend on the degree to which the government and the private sector will remain stewards of clean air, soil, water, and other finite resources on which the tourism industry depends and on which Portugal's world image as a unique place to visit rests. Currently, Portugal is investing heavily in renewable energy from solar, wind, and wave power in order to account for about 50 percent of its electricity needs by 2010. Portugal opened the world's largest solar power plant and the world's first commercial wave power farm in 2006.An American documentary film on Portugal produced in the 1970s described this little country as having "a Past in Search of a Future." In the years after the Revolution of 25 April 1974, it could be said that Portugal is now living in "a Present in Search of a Future." Increasingly, that future lies in Europe as an active and productive member of the EU. -
9 mode
1) режим2) состояние3) мода, тип ( волны)•- acoustic mode
- active mode
- adaptive mode
- alternate mode
- ANS/FAX mode
- answering mode
- assemble mode
- asymmetrical mode
- asynchronous balanced mode
- asynchronous transfer mode
- authorized reception mode
- auto document mode
- autoinformer mode
- automatic mode
- automatic reception mode
- auto-night mode
- backup mode
- basic control mode
- biharmonical mode
- bound mode
- buffer mode
- byte mode
- center mark mode
- channel mode
- circuit-transfer mode
- cladding mode
- client-server mode
- coasting mode
- combined mode
- command mode
- common mode
- communication mode
- confidential mode
- continuous emission mode
- continuous mode
- conversational mode
- correction mode
- coupled modes
- cutoff mode
- data mode
- data-processing mode
- day/night mode
- delayed ARM mode
- DEMO mode
- detail mode
- detection mode
- direct sending mode
- display mode
- dual mode
- duplex mode
- erase mode
- evanescent mode
- executive mode
- expansion modes
- external synchronization mode
- Fax mode
- fine mode
- first-type oscillation mode
- forced mode
- frame mode
- fundamental mode
- generator mode
- ghost mode
- group mode
- guard mode
- half-duplex mode
- half-speed mode
- half-tone mode
- hierarchical mode
- high-power mode
- holding mode
- hollow-beam mode
- home-only mode
- hybrid mode
- idling mode
- instant ARM mode
- internal synchronization mode
- interrupt mode
- interruptible current mode
- inversed mode
- key mode
- landscape mode
- leaky mode
- light-tensioned mode
- limiting mode
- linear mode
- line-art mode
- line-hold mode
- line-holding mode
- listening mode
- local mode
- lock mode
- long-distance mode
- long-play mode
- long-time mode
- loudly mode
- low signal mode
- lugdown mode
- macroblock mode
- magnetostatic mode
- manual mode
- master mode
- matched operation mode
- matching mode
- memory lock mode
- minimal mode
- mode of behavior
- modulated mode
- monitor mode
- mono mode
- multicopy mode
- multiplex mode
- multipoint mode
- multisort document reception mode
- net mode
- nonpublic mode
- nontransparent mode
- normal mode
- off mode
- off-normal mode
- on-line mode
- on-link mode
- open-phase mode
- operating mode
- orthonormal modes
- overseas mode
- overtensioned mode
- parallel mode
- part load mode
- partial load mode
- peak mode
- periodic mode
- phone-only mode
- photo mode
- photodiode mode
- photogalvanic mode
- phototransistor mode
- pilot mode
- playback mode
- polling reception mode
- polling standby mode
- polling-transmission mode
- portrait mode
- potential mode
- precritical mode
- prediction mode
- printer mode
- private mode
- propagation mode
- pulsed mode
- quasi-cyclic mode
- quasi-key mode
- quick-record mode
- radiation mode
- rated power mode
- real-time mode
- receive mode
- recursive short-time mode
- redial mode
- remote-receiving mode
- rental mode
- rest mode
- reversing mode
- running-wave mode
- sample-and-hold mode
- saturation mode
- save dial mode
- scan mode
- second-type oscillation mode
- self-exciting oscillation mode
- self-oscillating mode
- send later mode
- sequential lossless mode
- serial mode
- series mode
- servicing mode
- setup mode
- shared fax mode
- short-time mode
- silence detection mode
- silently mode
- sleep mode
- soft self-exciting mode
- soft-control mode
- soft-controlling mode
- sound mode
- special scanning mode
- standard mode
- standby mode
- standing wave mode
- start mode
- starting mode
- start-stop mode
- stereo mode
- stop mode
- storage mode
- substitute reception mode
- superfine mode
- switching mode
- symmetrical mode
- synchronous-transfer mode
- synchronous-transmission mode
- TEL mode
- TEL/FAX mode
- telegraph mode
- telephone mode
- tensioned mode
- transfer mode
- transmission dead-line mode
- transmission mode
- transverse electric-and-magnetic mode
- transverse magnetic mode
- transverse-electric mode
- traveling wave mode
- triggering mode
- tuning mode
- uncoupled modes
- undertensioned mode
- unlock mode
- unstable mode
- valve mode
- vibrating mode
- voice-call mode
- waiting mode
- winding mode
- wireless-access mode
- XX modeEnglish-Russian dictionary of telecommunications and their abbreviations > mode
-
10 antenna
-
active antenna
-
actual antenna
-
adaptive antenna
-
Adcock antenna
-
aerospace antenna
-
airborne antenna
-
Alford antenna
-
all-band antenna
-
annular antenna
-
antifading antenna
-
aperiodic antenna
-
aperture antenna
-
approach antenna
-
arc antenna
-
array antenna
-
artificial antenna
-
backfire antenna
-
balanced antenna
-
barrel antenna
-
batwing antenna
-
beamca antenna
-
beam antenna
-
beam-steering antenna
-
Beverage antenna
-
biconical antenna
-
bifocal antenna
-
billboard antenna
-
blade antenna
-
block antenna
-
box antenna
-
broadband antenna
-
broadbeam antenna
-
broadcasting antenna
-
broadcast antenna
-
broadside antenna
-
buggy-whip antenna
-
cage antenna
-
Cassegrain antenna
-
cavity antenna
-
center-fed antenna
-
cheese-box antenna
-
cheese antenna
-
circular antenna
-
circularly polarized antenna
-
closed antenna
-
coaxial antenna
-
coil antenna
-
collapsible antenna
-
collinear antenna
-
comb antenna
-
common antenna
-
communication antenna
-
community antenna
-
cone antenna
-
conformal antenna
-
conical antenna
- conically scanning antenna -
corner antenna
-
corrugated surface antenna
-
corrugated antenna
-
cosecant antenna
-
cosecant-squared antenna
-
crossed antenna
-
cubical antenna
-
cubic antenna
-
curtain antenna
-
cylinder antenna
-
deep-space antenna
-
diamond antenna
-
dielectric antenna
-
diffraction antenna
-
dipole antenna
-
directional antenna
-
directly excited antenna
-
dish antenna
-
disk antenna
-
double-beam antenna
-
doublet antenna
-
driven antenna
-
dummy antenna
-
earth-coverage antenna
-
electronically scanned antenna
-
electronically steerable antenna
-
elementary antenna
-
elliptical antenna
-
end-fed antenna
-
end-fire antenna
-
exciting antenna
-
exterior antenna
-
fan-beam antenna
-
fan antenna
-
feeding antenna
-
ferrite antenna
-
finding antenna
-
fishbone antenna
-
fixed antenna
-
fixed-beam antenna
-
flagpole antenna
-
flat-top antenna
-
flat antenna
-
flush-mounted antenna
-
flush antenna
-
foldable antenna
-
folded antenna
-
folding antenna
-
frame antenna
-
gain antenna
-
glide-path antenna
-
Gregorian antenna
-
half-wavelength antenna
-
half-wave antenna
-
harp antenna
-
helical antenna
-
hoghorn antenna
-
homing antenna
-
horizontally polarized antenna
-
horn antenna
-
horn-lens antenna
-
image antenna
-
indoor antenna
-
intermediate-feed antenna
-
internal antenna
-
isotropic antenna
-
leaky-wave antenna
-
lens antenna
-
lobing antenna
-
localizer antenna
-
log-periodic antenna
-
long-range antenna
-
loop antenna
-
low-angle antenna
-
low-profile antenna
-
low-side lobe antenna
-
low-silhouette antenna
-
Luneburg lens antenna
-
Luneburg antenna
-
magnetic antenna
-
mains antenna
-
mast antenna
-
master antenna
-
microstrip antenna
-
microwave antenna
-
mirror antenna
-
mock antenna
-
monopole antenna
-
monopulse antenna
-
multi-beam antenna
-
multibeam antenna
-
multiband antenna
-
multidirectional antenna
-
multifrequency antenna
-
multilobed antenna
-
multimode antenna
-
multiple antenna
-
multiple-tuned antenna
-
multiunit antenna
-
near-omnidirectional antenna
-
near-surface antenna
-
nondirectional antenna
-
nonresonant antenna
-
notch antenna
-
nutating antenna
-
offset reflector antenna
-
omnidirectional antenna
-
open antenna
-
outdoor antenna
-
outside antenna
-
parabolic antenna
-
parasitic antenna
-
pencil-beam antenna
-
periscope antenna
-
phased antenna
-
pickup antenna
-
pillbox antenna
-
pivot antenna
-
planar antenna
-
plate antenna
-
pocket antenna
-
prism antenna
-
progressive-wave antenna
-
pylon antenna
-
quad antenna
-
quadrant antenna
-
quarter-wavelength antenna
-
quarter-wave antenna
-
radar antenna
-
radome-covered antenna
-
radome antenna
-
receiving antenna
-
reference antenna
-
reflector antenna
-
resonant antenna
-
retrodirective antenna
-
rhombic antenna
-
ribbon antenna
-
ring antenna
-
rod antenna
-
rooftop antenna
-
roof antenna
-
room antenna
-
rotable antenna
-
rotary-beam antenna
-
rotatable antenna
-
rotating-field antenna
-
scanning antenna
-
scimitar antenna
-
searching antenna
-
search antenna
-
self-phasing antenna
-
series-fed antenna
-
shaped-beam antenna
-
shunt-fed antenna
-
sleeve antenna
-
slit antenna
-
slotted-guide antenna
-
space-borne antenna
-
spacecraft antenna
-
spherical antenna
-
spheric antenna
-
spike antenna
-
spiral antenna
-
split-beam antenna
-
stacked antenna
-
standing-wave antenna
-
steerable-beam antenna
-
steerable antenna
-
stripline antenna
-
stub antenna
-
stub-matched antenna
-
superdirective antenna
-
suppressed antenna
-
surface antenna
-
surface-wave antenna
-
symmetrical antenna
-
synthetic-aperture antenna
-
synthetic antenna
-
telescopic antenna
-
tower-type antenna
-
tower antenna
-
trailing antenna
-
transmit-receive antenna
-
transmitting antenna
-
traveling-wave antenna
-
triangle antenna
-
tripole antenna
-
turnstile antenna
-
umbrella-type antenna
-
umbrella antenna
-
unipole antenna
-
V antenna
-
wave antenna
-
waveguide antenna
-
whip antenna
-
wide-angle antenna
-
wide-band antenna
-
wire antenna
-
Yagi antenna
-
zoned antenna -
11 engine
двигатель; мотор; машинаbuzz up an engine — жарг. запускать двигатель
clean the engine — прогазовывать [прочищать] двигатель (кратковременной даней газа)
engine of bypass ratio 10: 1 — двигатель с коэффициентом [степенью] двухконтурности 10:1
flight discarded jet engine — реактивный двигатель, отработавший лётный ресурс
kick the engine over — разг. запускать двигатель
lunar module ascent engine — подъёмный двигатель лунного модуля [отсека]
monofuel rocket engine — ЖРД на однокомпонентном [унитарном] топливе
open the engine up — давать газ, увеличивать тягу или мощность двигателя
prepackaged liquid propellant engine — ЖРД на топливе длительного хранения; заранее снаряжаемый ЖРД
production(-standard, -type) engine — серийный двигатель, двигатель серийного образца [типа]
return and landing engine — ксм. двигатель для возвращения и посадки
reversed rocket engine — тормозной ракетный двигатель; ксм. тормозная двигательная установка
run up the engine — опробовать [«гонять»] двигатель
secure the engine — выключать [останавливать, глушить] двигатель
shut down the engine — выключать [останавливать, глушить] двигатель
shut off the engine — выключать [останавливать, глушить] двигатель
solid(-fuel, -grain) rocket engine — ракетный двигатель твёрдого топлива
turn the engine over — проворачивать [прокручивать] двигатель [вал двигателя]
-
12 system
система; установка; устройство; ркт. комплекс"see to land" system — система посадки с визуальным приземлением
A.S.I. system — система указателя воздушной скорости
ablating heat-protection system — аблирующая [абляционная] система тепловой защиты
ablating heat-shield system — аблирующая [абляционная] система тепловой защиты
active attitude control system — ксм. активная система ориентации
aft-end rocket ignition system — система воспламенения заряда с задней части РДТТ [со стороны сопла]
aircraft response sensing system — система измерений параметров, характеризующих поведение ЛА
air-inlet bypass door system — дв. система перепуска воздуха на входе
antiaircraft guided missile system — ракетная система ПВО; зенитный ракетный комплекс
antiaircraft guided weapons system — ракетная система ПВО; зенитный ракетный комплекс
attenuated intercept satellite rendez-vous system — система безударного соединения спутников на орбите
attitude and azimuth reference system — система измерения или индикации углов тангажа, крена и азимута
automatic departure prevention system — система автоматического предотвращения сваливания или вращения после сваливания
automatic drift kick-off system — система автоматического устранения угла упреждения сноса (перед приземлением)
automatic hovering control system — верт. система автостабилизации на висении
automatic indicating feathering system — автоматическая система флюгирования с индикацией отказа (двигателя)
automatic mixture-ratio control system — система автоматического регулирования состава (топливной) смеси
automatic pitch control system — автомат тангажа; автоматическая система продольного управления [управления по каналу тангажа]
B.L.C. high-lift system — система управления пограничным слоем для повышения подъёмной силы (крыла)
backpack life support system — ксм. ранцевая система жизнеобеспечения
beam-rider (control, guidance) system — ркт. система наведения по лучу
biowaste electric propulsion system — электрический двигатель, работающий на биологических отходах
buddy (refueling, tank) system — (подвесная) автономная система дозаправки топливом в полете
closed(-circuit, -cycle) system — замкнутая система, система с замкнутым контуром или циклом; система с обратной связью
Cooper-Harper pilot rating system — система баллов оценки ЛА лётчиком по Куперу — Харперу
deployable aerodynamic deceleration system — развёртываемая (в атмосфере) аэродинамическая тормозная система
depressurize the fuel system — стравливать избыточное давление (воздуха, газа) в топливной системе
driver gas heating system — аэрд. система подогрева толкающего газа
dry sump (lubrication) system — дв. система смазки с сухим картером [отстойником]
electrically powered hydraulic system — электронасосная гидросистема (в отличие от гидросистемы с насосами, приводимыми от двигателя)
exponential control flare system — система выравнивания с экспоненциальным управлением (перед приземлением)
flywheel attitude control system — ксм. инерционная система ориентации
gas-ejection attitude control system — ксм. газоструйная система ориентация
gas-jet attitude control system — ксм. газоструйная система ориентация
ground proximity extraction system — система извлечения грузов из самолёта, пролетающего на уровне земли
hot-air balloon water recovery system — система спасения путем посадки на воду с помощью баллонов, наполняемых горячими газами
hypersonic air data entry system — система для оценки аэродинамики тела, входящего в атмосферу планеты с гиперзвуковой скоростью
igh-temperature fatigue test system — установка для испытаний на выносливость при высоких температурах
interceptor (directing, vectoring) system — система наведения перехватчиков
ion electrical propulsion system — ксм. ионная двигательная установка
isotope-heated catalytic oxidizer system — система каталитического окислителя с нагревом от изотопного источника
jet vane actuation system — ркт. система привода газового руля
laminar flow pumping system — система насосов [компрессоров] для ламинаризации обтекания
launching range safety system — система безопасности ракетного полигона; система обеспечения безопасности космодрома
leading edge slat system — система выдвижных [отклоняемых] предкрылков
low-altitude parachute extraction system — система беспосадочного десантирования грузов с малых высот с использованием вытяжных парашютов
magnetic attitude control system — ксм. магнитная система ориентации
magnetically slaved compass system — курсовая система с магнитной коррекцией, гироиндукционная курсовая система
mass-expulsion attitude control system — система ориентации за счёт истечения массы (газа, жидкости)
mass-motion attitude control system — ксм. система ориентации за счёт перемещения масс
mass-shifting attitude control system — ксм. система ориентации за счёт перемещения масс
monopropellant rocket propulsion system — двигательная установка с ЖРД на унитарном [однокомпонентном] топливе
nucleonic propellant gauging and utilization system — система измерения и регулирования подачи топлива с использованием радиоактивных изотопов
open(-circuit, -cycle) system — открытая [незамкнутая] система, система с незамкнутым контуром или циклом; система без обратной связи
plenum chamber burning system — дв. система сжигания топлива во втором контуре
positioning system for the landing gear — система регулирования высоты шасси (при стоянке самолёта на земле)
radar altimeter low-altitude control system — система управления на малых высотах с использованием радиовысотомера
radar system for unmanned cooperative rendezvous in space — радиолокационная система для обеспечения встречи (на орбите) беспилотных кооперируемых КЛА
range and orbit determination system — система определения дальностей [расстояний] и орбит
real-time telemetry processing system — система обработки радиотелеметрических данных в реальном масштабе времени
recuperative cycle regenerable carbon dioxide removal system — система удаления углекислого газа с регенерацией поглотителя, работающая по рекуперативному циклу
rendezvous beacon and command system — маячно-командная система обеспечения встречи («а орбите)
satellite automatic terminal rendezvous and coupling system — автоматическая система сближения и стыковки спутников на орбите
Schuler tuned inertial navigation system — система инерциальной навигации на принципе маятника Шулера
sodium superoxide carbon dioxide removal system — система удаления углекислого газа с помощью надперекиси натрия
space shuttle separation system — система разделения ступеней челночного воздушно-космического аппарата
stellar-monitored astroinertial navigation guidance system — астроинерциальная система навигации и управления с астрокоррекцией
terminal control landing system — система управления посадкой по траектории, связанной с выбранной точкой приземления
terminal descent control system — ксм. система управления на конечном этапе спуска [снижения]
terminal guidance system for a satellite rendezvous — система управления на конечном участке траектории встречи спутников
test cell flow system — ркт. система питания (двигателя) топливом в огневом боксе
vectored thrust (propulsion) system — силовая установка с подъёмно-маршевым двигателем [двигателями]
water to oxygen system — ксм. система добывания кислорода из воды
wind tunnel data acquisition system — система регистрации (и обработки) данных при испытаниях в аэродинамической трубе
— D system -
13 laser
лазер || лазерный- laser with dynamic liquid crystal mirrors
- acidic umbelliferone laser
- acoustooptically-tuned laser
- acquisition laser
- active infrared detection laser
- actively mode-locked laser
- actively Q-switched laser
- alignment laser
- alkali-halide laser
- alpha-particle laser
- amorphous laser
- amplitude stabilized laser
- anisotropic laser
- anorganic vapor laser
- antisubmarine laser
- Ar laser
- arc-driven laser
- arc-excited laser
- argon laser
- atmospheric pressure laser
- atomic laser
- atomic-beam laser
- Au vapor laser
- avalanche injection laser
- axially excited laser
- beam-expanded laser
- BH injection laser
- bidirectional laser
- bistable laser
- black-body laser
- black-body pumped laser
- blue laser
- Bragg laser
- Brewster-angled laser
- bromine vapor laser
- Br vapor laser
- bulk ionized laser
- buried-heterostructure injection laser
- butt-coupled laser
- C-laser
- Ca laser
- cadmium selenide laser
- cadmium sulfide laser
- cadmium vapor laser
- calcium vapor laser
- carbazine laser
- carbon dioxide laser
- carbon monoxide laser
- carbon vapor laser
- carbopyronine laser
- cascade laser
- cataphoresis pumping laser
- cavity laser
- Cd laser
- ceramic laser
- chain-reaction laser
- chelate laser
- chemical laser
- chemically excited laser
- chemically pumped laser
- chemical transfer laser
- chirped laser
- chlorine laser
- circular ring laser
- circulated-liquid laser
- Cl laser
- close-confinement laser
- closed-cycle laser
- CO laser
- CO2 laser
- coaxial laser
- coaxial-flow laser
- color-center laser
- combustion laser
- combustion powered laser
- composite-rod laser
- Compton laser
- condensed-phase laser
- confined-phase laser
- confocal laser
- CO2+N2+He laser
- continuously operated ruby laser
- continuously pumped laser
- continuously running laser
- continuous-wave laser
- convectively-cooled laser
- copper iodide laser
- copper vapor laser
- corner-cube laser
- coumarin laser
- coupled-cavity laser
- cross-beam laser
- cross-discharge laser
- cross-field laser
- cross-pumped laser
- cryogenic laser
- crystalline laser
- Cu laser
- CW laser
- dc-excited laser
- deflection laser
- deuterium fluoride laser
- DFB laser
- dielectric gas laser
- dielectric solid-state laser
- diffraction-limited laser
- diffraction-stabilized laser
- diffused laser
- diffusion-cooled laser
- dimer laser
- diode laser
- diode-pumped laser
- direct-gap injection laser
- directly modulated laser
- disk laser
- distributed laser
- distributed-feedback laser
- double-beam laser
- double-discharge laser
- double-frequency laser
- double-heterojunction laser
- double-heterostructure laser
- double-injection laser
- double-mode laser
- double-pulse laser
- double-quantum laser
- doubly mode-locked laser
- dual laser
- dye laser
- dye-doped polymethylmethacrylate laser
- E-beam-controlled laser
- E-beam-pumped laser
- electrically excited laser
- electric-discharge laser
- electroionization laser
- electron-beam laser
- electron-beam-excited laser
- electron-beam-initiated laser
- electron-beam plasma laser
- electron-beam-pumped laser
- electron-beam-stabilized laser
- electron-beam-triggering laser
- electron-collisionally excited ionic laser
- electronic transition laser
- electronic-vibrational transition laser
- electrooptically tuned laser
- ELION laser
- end-pumped laser
- epitaxial laser
- epitaxial-grown laser
- equilateral triangular laser
- erasing laser
- erbium-glass laser
- evanescent-field-pumped laser
- evanescent-wave-pumped laser
- excimer laser
- excited-state dimer laser
- exciting laser
- exciton laser
- explosion laser
- explosively pumped laser
- externally excited laser
- external-mirror laser
- extrinsically tuned laser
- face-pumped laser
- far-infrared laser
- far-ultraviolet laser
- fast-flowing laser
- feedback laser
- fiber laser
- fiber-tailed laser
- fixed-frequency laser
- flame laser
- flashlamp-pumped laser
- flowing gas laser
- flowing molecular laser
- four-level laser
- free-electron laser
- free-running laser
- frequency-controlled laser
- frequency-doubled laser
- frequency-modulated laser
- frequency-multiplied laser
- frequency-tuned laser
- fundamental-mode laser
- Ga-As laser
- gain-guided laser
- gain-switched laser - gamma-ray laser
- gas laser
- gas-discharge laser - gold vapor laser
- grating-controlled laser
- grating-coupled laser
- green laser
- green argon laser
- HCI vibrational-rotational laser
- heat-pumped laser
- heavy doped laser
- helium-iodine laser
- helium-krypton laser
- helium-xenon laser
- He-Ne laser
- heterojunction laser
- heterostructure laser
- heterostructure injection laser
- Hg laser
- high-current ion laser
- high-energy laser
- high-gain laser
- high-intensity laser
- highly coherent laser
- high-power laser
- high-pressure laser
- high-repetition-rate laser
- hollow-cathode laser
- holmium glass laser
- homogeneously broadened laser
- homogeneously pumped laser
- homojunction laser
- homostructure laser
- hybrid laser
- hydrogen laser
- hydrogen halide laser
- I-laser
- illuminating laser
- incoherently pumped laser
- index-guided laser
- indirect-gap injection laser - inhomogeneously pumped laser
- initiated laser
- initiating laser
- injection laser
- injection-locking laser
- injection-plasma laser
- inorganic-liquid laser
- integral compact glass laser
- internal-mirror laser
- intracavity modulated laser
- iodine laser
- ion laser
- ionization-assisted gas laser
- ionized laser
- IR laser
- Javan's laser
- junction laser
- Kerr-cell switched laser
- Kr laser
- krypton laser
- Lamb-dip stabilized laser
- large-aperture laser
- large-optical-cavity laser
- laser-pumped laser
- layered laser
- lead selenide laser
- lead sulfide laser
- lead telluride laser
- lead tin telluride laser
- lead vapor laser
- light-emitting-diode pumped laser
- light-pumped laser
- liquid laser
- liquid-dye laser
- LOC laser
- longitudinal-flow laser
- longitudinal-pumped laser
- long-wavelength laser
- low-power laser
- low-pressure laser
- low-threshold laser
- magnetically confined ion gas laser
- magnetohydrodynamic laser
- magnetooptical laser
- manganese vapor laser
- many-element laser
- mass-transport buried heterostructure laser
- master laser
- mercury vapor laser
- mesa laser
- metal vapor laser
- MHD laser
- microwave-pumped laser
- millimeter laser
- millimeter-wave laser
- mirror-angle tuned laser
- mirrorless laser
- Mn vapor laser
- mode-controlled laser
- mode-coupled laser
- mode-limited laser
- mode-locked laser
- mode-selected laser
- molecular laser
- molecular nitrogen discharge laser
- MTBH laser
- multicolor laser
- multifrequency laser
- multiline laser
- multilongitudinal-mode laser
- multimodal laser
- multimode laser
- multiphoton laser
- multiple-dye laser
- multiple-pulse laser
- multiple quantum-well laser
- multiple-wavelength laser
- multiprism laser
- mutually pumped injection laser
- Nd-doped yttrium-aluminum-garnet laser
- Nd-glass laser
- Nd-YAG laser
- Ne laser
- near-IR laser
- neodymium-doped phosphorous chloride laser
- neodymium glass laser
- neodymium liquid laser
- neodymium-selenium oxychloride laser
- neodymium-ytterbium glass laser
- neodymium-yttrium-erbium glass laser
- neon laser
- neutral gas laser
- nitrogen laser
- nitrogen-carbon dioxide laser
- noble-gas laser
- noncavity laser
- nonmode-selected laser
- nonspiking laser
- nuclear laser
- nuclear-charged self-sustaining laser
- nuclear-pumped laser
- nuclear γ-laser
- O-laser
- optical-avalanche laser
- optical fiber laser
- optically pumped laser
- organic laser
- organic-dye laser
- overtone laser
- oxazine laser
- oxygen laser
- P-laser
- parallel-plate laser
- passively mode-locked laser
- passively Q-switched laser
- Pb ion laser
- phase-conjugate -laser
- phase-locked laser
- phosphorous vapor laser
- photochemical laser
- photodissociation laser
- photoexcitation laser
- photoinitiated laser
- photoionization laser
- photoionized laser
- photorecombination laser
- pigtailed laser
- pinched-plasma laser
- pink-ruby laser
- planar stripe laser
- plane-resonator laser
- plasma laser
- p-n laser
- p-n junction laser
- polycrystalline laser
- positive-column-discharge laser
- potassium bromide laser
- p-p-n-n laser
- preionization laser
- preionized laser
- premixed chemical laser
- pressure-tuned laser
- prism dye laser
- prism-tuned laser
- PS laser
- pulsed laser
- pulsed electrical laser
- pulsed ruby laser
- pulsed water-vapor laser
- pulse-initiated chemical laser
- pumped laser
- pumping laser
- pyrotechnically pumped laser
- Q-spoiled laser
- Q-switched laser
- Q-switching laser
- quantum-well laser
- quartz laser
- quasi-continuous laser
- radial-discharge laser
- Raman laser
- rare-earth chelate laser
- rare-gas electrical-discharge laser
- reading laser
- recombination laser
- red laser
- regularly pulsing laser
- repetitively pumped laser
- resonanit laser
- RF excited laser
- rhodamine laser
- rhodamine 6G-laser
- Ridley-Watkins-Hillsum-mechanism laser
- ring laser
- roof-top ruby laser
- rotation laser
- ruby laser
- RWH-mechanism laser
- S-laser
- scan laser
- SCH laser
- sealed-off laser
- selenium vapor laser
- self-contained laser
- self-focusing laser
- self-locked laser
- self-mode-locking laser
- self-Q-switching laser
- self-starting laser
- self-sustained laser
- self-terminating laser
- self-tuned laser
- semiconductor laser
- separate-confinement heterostructure laser
- shock-tube laser
- shock-wave pumped laser
- short-pulsed laser
- Si laser
- silicon vapor laser
- single-frequency laser
- single-heterojunction laser
- single-heterostructure laser
- single-longitudinal-mode laser
- single-mode laser
- single-mode pumped laser
- single-shot pumped laser
- single-wavelength laser
- slave laser
- SLM laser
- slotted cathode laser
- slow-flowing laser
- software laser
- solar-pumped laser
- solid laser
- solid-dye laser
- solid rare-earth ion laser
- solid-state laser
- spikeless laser
- spiking laser
- spin-flip laser
- Sr laser
- storage laser
- storage-ring laser
- streamer laser
- stripe laser
- stripe-geometry laser
- strontium vapor laser
- submillimeter laser
- subsonic-flow laser
- sulfur-hexafluoride laser
- sulfur-vapor laser
- sun-pumped laser
- superlattice laser
- superluminescent laser
- superpower laser
- superradiant laser
- superradiative laser
- supersonic laser
- synchronously-pumped laser
- TEA laser
- telescopic-resonator laser
- temperature-controlled laser
- thallium vapor laser
- thermally controlled laser
- thermally excited laser
- thermally pumped laser
- thick-cavity junction laser
- thin-film laser
- thin-film diode laser
- three-level laser
- tin vapor laser
- tracking laser
- transfer chemical laser
- transverse electrically initiated laser
- transverse-excitation atmospheric laser
- transverse-excitation atmospheric pressure laser
- transverse-flow laser
- transverse-flow mixing laser
- traveling-wave laser
- triode laser
- tunable laser
- tunable diode laser
- tunnel laser
- tunnel-injection laser
- two-frequency laser
- two-isotope active medium laser
- two-photon pumped laser
- ultraviolet laser
- uncontrolled laser
- unidirectional laser
- unimodal laser
- unstable-resonator laser
- UV laser
- vacuum-ultraviolet laser
- variable pulse-length laser
- variable-wavelength laser
- vernier interferometric laser
- vibrational-rotation laser
- vibrational-transition laser
- visible laser
- VUV laser
- waveguide laser
- waveguide-pumping laser
- writing laser
- Xe laser
- xenon ion laser
- X-ray laser
- ytterbium glass laser
- Zeeman laser
- zero-order-mode laser
- zinc oxide laser
- zinc-oxide nanowire laser
- zinc sulfide laser
- zinc vapor laser
- Zn laser -
14 laser
лазер || лазерный- acoustooptically-tuned laser
- acquisition laser
- active infrared detection laser
- actively mode-locked laser
- actively Q-switched laser
- alignment laser
- alkali-halide laser
- alpha-particle laser
- amorphous laser
- amplitude stabilized laser
- anisotropic laser
- anorganic vapor laser
- antisubmarine laser
- Ar laser
- arc-driven laser
- arc-excited laser
- argon laser
- atmospheric pressure laser
- atomic laser
- atomic-beam laser
- Au vapor laser
- avalanche injection laser
- axially excited laser
- beam-expanded laser
- BH injection laser
- bidirectional laser
- bistable laser
- black-body laser
- black-body pumped laser
- blue laser
- Br vapor laser
- Bragg laser
- Brewster-angled laser
- bromine vapor laser
- bulk ionized laser
- buried-heterostructure injection laser
- butt-coupled laser
- C laser
- Ca laser
- cadmium selenide laser
- cadmium sulfide laser
- cadmium vapor laser
- calcium vapor laser
- carbazine laser
- carbon dioxide laser
- carbon monoxide laser
- carbon vapor laser
- carbopyronine laser
- cascade laser
- cataphoresis pumping laser
- cavity laser
- Cd laser
- ceramic laser
- chain-reaction laser
- chelate laser
- chemical laser
- chemical transfer laser
- chemically excited laser
- chemically pumped laser
- chirped laser
- chlorine laser
- circular ring laser
- circulated-liquid laser
- Cl laser
- close-confinement laser
- closed-cycle laser
- CO laser
- CO2 + N2 + He laser
- CO2 laser
- coaxial laser
- coaxial-flow laser
- color-center laser
- combustion laser
- combustion powered laser
- composite-rod laser
- Compton laser
- condensed-phase laser
- confined-phase laser
- confocal laser
- continuously operated ruby laser
- continuously pumped laser
- continuously running laser
- continuous-wave laser
- convectively-cooled laser
- copper iodide laser
- copper vapor laser
- corner-cube laser
- coumarin laser
- coupled-cavity laser
- cross-beam laser
- cross-discharge laser
- cross-field laser
- cross-pumped laser
- cryogenic laser
- crystalline laser
- Cu laser
- CW laser
- dc-excited laser
- deflection laser
- deuterium fluoride laser
- DFB laser
- dielectric gas laser
- dielectric solid-state laser
- diffraction-limited laser
- diffraction-stabilized laser
- diffused laser
- diffusion-cooled laser
- dimer laser
- diode laser
- diode-pumped laser
- direct-gap injection laser
- directly modulated laser
- disk laser
- distributed laser
- distributed-feedback laser
- double-beam laser
- double-discharge laser
- double-frequency laser
- double-heterojunction laser
- double-heterostructure laser
- double-injection laser
- double-mode laser
- double-pulse laser
- double-quantum laser
- doubly mode-locked laser
- dual laser
- dye laser
- dye-doped polymethylmethacrylate laser
- E-beam-controlled laser
- E-beam-pumped laser
- electrically excited laser
- electric-discharge laser
- electroionization laser
- electron-beam laser
- electron-beam plasma laser
- electron-beam-excited laser
- electron-beam-initiated laser
- electron-beam-pumped laser
- electron-beam-stabilized laser
- electron-beam-triggering laser
- electron-collisionally excited ionic laser
- electronic transition laser
- electronic-vibrational transition laser
- electrooptically tuned laser
- ELION laser
- end-pumped laser
- epitaxial laser
- epitaxial-grown laser
- equilateral triangular laser
- erasing laser
- erbium-glass laser
- evanescent-field-pumped laser
- evanescent-wave-pumped laser
- excimer laser
- excited-state dimer laser
- exciting laser
- exciton laser
- explosion laser
- explosively pumped laser
- externally excited laser
- external-mirror laser
- extrinsically tuned laser
- face-pumped laser
- far-infrared laser
- far-ultraviolet laser
- fast-flowing laser
- feedback laser
- fiber laser
- fiber-tailed laser
- fixed-frequency laser
- flame laser
- flashlamp-pumped laser
- flowing gas laser
- flowing molecular laser
- four-level laser
- free-electron laser
- free-running laser
- frequency-controlled laser
- frequency-doubled laser
- frequency-modulated laser
- frequency-multiplied laser
- frequency-tuned laser
- fundamental-mode laser
- Ga-As laser
- gain-guided laser
- gain-switched laser
- gallium arsenide laser
- gallium nitride laser
- gamma-ray laser
- gas laser
- gas-discharge laser
- gas-dynamic laser
- giant-pulse laser
- giant-pulse ruby laser
- glass laser
- gold vapor laser
- grating-controlled laser
- grating-coupled laser
- green argon laser
- green laser
- HCI vibrational-rotational laser
- heat-pumped laser
- heavy doped laser
- helium-iodine laser
- helium-krypton laser
- helium-xenon laser
- He-Ne laser
- heterojunction laser
- heterostructure injection laser
- heterostructure laser
- Hg laser
- high-current ion laser
- high-energy laser
- high-gain laser
- high-intensity laser
- highly coherent laser
- high-power laser
- high-pressure laser
- high-repetition-rate laser
- hollow-cathode laser
- holmium glass laser
- homogeneously broadened laser
- homogeneously pumped laser
- homojunction laser
- homostructure laser
- hybrid laser
- hydrogen halide laser
- hydrogen laser
- I laser
- illuminating laser
- incoherently pumped laser
- index-guided laser
- indirect-gap injection laser
- infrared laser
- inhomogeneously broadened laser
- inhomogeneously pumped laser
- initiated laser
- initiating laser
- injection laser
- injection-locking laser
- injection-plasma laser
- inorganic-liquid laser
- integral compact glass laser
- internal-mirror laser
- intracavity modulated laser
- iodine laser
- ion laser
- ionization-assisted gas laser
- ionized laser
- IR laser
- Javan's laser
- junction laser
- Kerr-cell switched laser
- Kr laser
- krypton laser
- Lamb-dip stabilized laser
- large-aperture laser
- large-optical-cavity laser
- laser on supersonic jet
- laser with dynamic liquid crystal mirrors
- laser-pumped laser
- layered laser
- lead selenide laser
- lead sulfide laser
- lead telluride laser
- lead tin telluride laser
- lead vapor laser
- light-emitting-diode pumped laser
- light-pumped laser
- liquid laser
- liquid-dye laser
- LOC laser
- longitudinal-flow laser
- longitudinal-pumped laser
- long-wavelength laser
- low-power laser
- low-pressure laser
- low-threshold laser
- magnetically confined ion gas laser
- magnetohydrodynamic laser
- magnetooptical laser
- manganese vapor laser
- many-element laser
- mass-transport buried heterostructure laser
- master laser
- mercury vapor laser
- mesa laser
- metal vapor laser
- MHD laser
- microwave-pumped laser
- millimeter laser
- millimeter-wave laser
- mirror-angle tuned laser
- mirrorless laser
- Mn vapor laser
- mode-controlled laser
- mode-coupled laser
- mode-limited laser
- mode-locked laser
- mode-selected laser
- molecular laser
- molecular nitrogen discharge laser
- MTBH laser
- multicolor laser
- multifrequency laser
- multiline laser
- multilongitudinal-mode laser
- multimodal laser
- multimode laser
- multiphoton laser
- multiple quantum-well laser
- multiple-dye laser
- multiple-pulse laser
- multiple-wavelength laser
- multiprism laser
- mutually pumped injection laser
- Nd-doped yttrium-aluminum-garnet laser
- Nd-glass laser
- Nd-YAG laser
- Ne laser
- near-IR laser
- neodymium glass laser
- neodymium liquid laser
- neodymium-doped phosphorous chloride laser
- neodymium-selenium oxychloride laser
- neodymium-ytterbium glass laser
- neodymium-yttrium-erbium glass laser
- neon laser
- neutral gas laser
- nitrogen laser
- nitrogen-carbon dioxide laser
- noble-gas laser
- noncavity laser
- nonmode-selected laser
- nonspiking laser
- nuclear γ laser
- nuclear laser
- nuclear-charged self-sustaining laser
- nuclear-pumped laser
- O laser
- optical fiber laser
- optical-avalanche laser
- optically pumped laser
- organic laser
- organic-dye laser
- overtone laser
- oxazine laser
- oxygen laser
- P laser
- parallel-plate laser
- passively mode-locked laser
- passively Q-switched laser
- Pb ion laser
- phase-conjugate-laser
- phase-locked-laser
- phosphorous vapor laser
- photochemical laser
- photodissociation laser
- photoexcitation laser
- photoinitiated laser
- photoionization laser
- photoionized laser
- photorecombination laser
- pigtailed laser
- pinched-plasma laser
- pink-ruby laser
- planar stripe laser
- plane-resonator laser
- plasma laser
- p-n junction laser
- p-n laser
- polycrystalline laser
- positive-column-discharge laser
- potassium bromide laser
- p-p-n-n laser
- preionization laser
- preionized laser
- premixed chemical laser
- pressure-tuned laser
- prism dye laser
- prism-tuned laser
- PS laser
- pulsed electrical laser
- pulsed laser
- pulsed ruby laser
- pulsed water-vapor laser
- pulse-initiated chemical laser
- pumped laser
- pumping laser
- pyrotechnically pumped laser
- Q-spoiled laser
- Q-switched laser
- Q-switching laser
- quantum-well laser
- quartz laser
- quasi-continuous laser
- radial-discharge laser
- Raman laser
- rare-earth chelate laser
- rare-gas electrical-discharge laser
- reading laser
- recombination laser
- red laser
- regularly pulsing laser
- repetitively pumped laser
- resonanit laser
- RF excited laser
- rhodamine 6G laser
- rhodamine laser
- Ridley-Watkins-Hillsum-mechanism laser
- ring laser
- roof-top ruby laser
- rotation laser
- ruby laser
- RWH-mechanism laser
- S laser
- scan laser
- SCH laser
- sealed-off laser
- selenium vapor laser
- self-contained laser
- self-focusing laser
- self-locked laser
- self-mode-locking laser
- self-Q-switching laser
- self-starting laser
- self-sustained laser
- self-terminating laser
- self-tuned laser
- semiconductor laser
- separate-confinement heterostructure laser
- shock-tube laser
- shock-wave pumped laser
- short-pulsed laser
- Si laser
- silicon vapor laser
- single-frequency laser
- single-heterojunction laser
- single-heterostructure laser
- single-longitudinal-mode laser
- single-mode laser
- single-mode pumped laser
- single-shot pumped laser
- single-wavelength laser
- slave laser
- SLM laser
- slotted cathode laser
- slow-flowing laser
- software laser
- solar-pumped laser
- solid laser
- solid rare-earth ion laser
- solid-dye laser
- solid-state laser
- spikeless laser
- spiking laser
- spin-flip laser
- Sr laser
- storage laser
- storage-ring laser
- streamer laser
- stripe laser
- stripe-geometry laser
- strontium vapor laser
- submillimeter laser
- subsonic-flow laser
- sulfur-hexafluoride laser
- sulfur-vapor laser
- sun-pumped laser
- superlattice laser
- superluminescent laser
- superpower laser
- superradiant laser
- superradiative laser
- supersonic laser
- synchronously-pumped laser
- TEA laser
- telescopic-resonator laser
- temperature-controlled laser
- thallium vapor laser
- thermally controlled laser
- thermally excited laser
- thermally pumped laser
- thick-cavity junction laser
- thin-film diode laser
- thin-film laser
- three-level laser
- tin vapor laser
- tracking laser
- transfer chemical laser
- transverse electrically initiated laser
- transverse-excitation atmospheric laser
- transverse-excitation atmospheric pressure laser
- transverse-flow laser
- transverse-flow mixing laser
- traveling-wave laser
- triode laser
- tunable diode laser
- tunable laser
- tunnel laser
- tunnel-injection laser
- two-frequency laser
- two-isotope active medium laser
- two-photon pumped laser
- ultraviolet laser
- uncontrolled laser
- unidirectional laser
- unimodal laser
- unstable-resonator laser
- UV laser
- vacuum-ultraviolet laser
- variable pulse-length laser
- variable-wavelength laser
- vernier interferometric laser
- vibrational-rotation laser
- vibrational-transition laser
- visible laser
- VUV laser
- waveguide laser
- waveguide-pumping laser
- writing laser
- Xe laser
- xenon ion laser
- X-ray laser
- ytterbium glass laser
- Zeeman laser
- zero-order-mode laser
- zinc oxide laser
- zinc sulfide laser
- zinc vapor laser
- zinc-oxide nanowire laser
- Zn laserThe New English-Russian Dictionary of Radio-electronics > laser
-
15 effect
1) эффект; явление || производить эффект; порождать явление2) влияние; (воз)действие || влиять; оказывать влияние; (воз)действовать; оказывать воздействие3) pl тлв вчт спецэффекты•- ac Hall effect
- ac Josephson effect
- acoustical Faraday effect
- acoustic Doppler effect
- acoustoelectric effect
- acoustoresistive effect
- ambisonic effect
- anisotropic effect
- anode effect
- anomalous Hall effect
- anomalous Sasaki-Shibuya effect
- anomalous Zeeman effect
- antenna effect
- aspect effect
- atomic photoelectric effect
- Auger effect
- avalanche effect
- background effect
- back-porch effect
- back stress effect
- back-wall photoelectric effect
- Barkhausen effect
- Barnett effect
- barrier effect
- base-robbing effect
- binaural effect
- blackout effect
- blindness effect
- Boers effect
- Bragg effect
- Bridgman effect
- bulk effect
- Burstein-Moss effect
- butterfly effect
- capture effect
- Casimir effect
- Cerenkov effect
- channel effect
- charge-storage effect
- cocktail-party effect
- collector-follower effect
- colossal magnetoresistive effect
- comet effect
- Compton effect
- conductivity modulation effect
- contour effect
- conventional skin effect
- converse effect
- converse magnetostrictive effect
- Cooper effect
- Corbino effect
- corner effect
- corona effect
- Cotton effect
- Cotton-Mouton effect
- cryptomagnetic effect
- dc Hall effect
- dc Josephson effect
- dead-end effect
- Debye effect
- Debye-Sears effect
- delayed-sidetone effect
- Dellinger effect
- Dember effect
- dephasing effect
- Destriau effect
- digital multi-effects - domino effect
- Doppler effect
- dynamic pinch effect
- dynamic stereoscopic effect
- dynatron effect
- Early effect
- echo effect
- edge effect
- Edison effect
- Einstein-de Haas effect
- elastooptical effect
- elastoresistive effect
- electroacoustic effect
- electrooptical effect
- electrooptical Kerr effect
- electro-opto-acoustical effect
- electroosmotic effect
- electrophonic effect
- electrophoretic effect
- electroresistive effect
- electrostatic Kerr effect
- electrostrictive effect
- emitter dip effect
- emitter push effect
- end effect
- equatorial Kerr effect
- equatorial magnetooptical Kerr effect
- Esaki effect
- Ettingshausen effect
- external photoelectric effect
- extrinsic photoconductive effect
- extrinsic photoelectric effect
- Faraday effect
- ferroelectric effect
- ferromagnetic proximity effect
- field effect
- field-rejection effect
- fixed effects
- flexoelectric effect
- flicker effect
- flywheel effect
- forbidden effect
- fractional quantum Hall effect
- fringe effect
- galvanomagnetic effects
- galvanothermomagnetic effects
- gap effect
- Gauss effect
- giant Hall effect
- giant magnetoimpedance effect
- giant magnetoresistive effect
- granularity effect
- greenhouse effect
- Gudden-Pohl effect
- Gunn effect
- gyromagnetic effects
- Haas effect
- Hall effect
- Hallwachs effect
- Hanle effect
- heating effect of current
- height effect
- hole-burning effect
- hyperfine effect
- image effect
- inlay effect
- interface effects
- internal photoelectric effect
- intrinsic photoconductive effect
- invar effect
- inverse effect
- inverse Faraday effect
- inverse photoelectric effect
- inverse piezoelectric effect
- island effect
- isotope effect
- Jahn-Teller effect
- Josephson effect
- Joule effect
- junction edge effect
- Kapitza-Dirac effect
- Kerr effect
- Kirk effect
- Kirkendall effect
- Kundt effect
- lagged effect
- laser effect
- Leduc-Righi effect
- linear electrooptic effect
- longitudinal galvanothermomagnetic effect
- longitudinal Kerr effect
- longitudinal magnetoresistive effect
- longitudinal thermomagnetic effect
- long-line effect
- long-run effect
- Lorentz effect
- Lossev effect
- Luxemburg effect
- Maggi-Righi-Leduc effect
- magnetoelastic effect
- magnetoelectric effect
- magnetogalvanic effects
- magnetoimpedance effect
- magnetooptical Kerr effect
- magnetoresistive effect
- magnetostrictive effect
- magnetron effect
- Malter effect
- Meisner effect
- meridional Kerr effect
- meridional magnetooptical Kerr effect
- metamagnetic effect
- metamagnetoelastic effect
- microphonic effect
- microwave biological effect
- Miller effect
- moiré effect
- Mössbauer effect
- motor effect
- multipactor effect
- multipath effect
- multi-valued Sasaki-Shibuya effect
- mutual coupling effect on input impedance
- mutual coupling effect on radiation pattern
- negative resistance effect
- Nernst effect
- Nernst-Ettingshausen effect
- night effect
- normal Hall effect
- normal Zeeman effect
- Nottingham effect
- Ovshinsky effect
- pairing effect
- parallel pumping instability effect
- parallel pumping spin wave instability effect
- Pashen-Back effect
- peak effect
- Peltier effect
- photocapacitor effect
- photoconductive effect
- photodielectric effect
- photodiffusion effect
- photoelastic effect
- photoelectret effect
- photoelectric effect
- photoelectromagnetic effect
- photoemissive effect
- photomagnetic effect
- photomagnetoelectric effect
- photopiezoelectric effect
- photothermoelectric effect
- photovoltaic effect
- picket-fence effect
- piezoelectric effect
- piezomagnetic effect
- piezomagnetoelectric effect
- piezooptical effect
- piezoresistance effect
- piezoresistive effect
- pinch effect
- pinch-in effect
- Pockels effect
- polar Kerr effect
- polar magnetooptical Kerr effect
- Pool-Frenkel effect
- print-through effect
- proximity effect
- pyroelectric effect
- pyromagnetic effect
- quadraphonic effect
- quadro effect
- quadratic magnetooptical effect
- quantized Hall effect
- quantum Hall effect
- Raman effect
- Ramsauer effect
- random effect
- rate effect
- red eyes effect
- Renner effect
- Richardson effect
- Ridley-Watkins-Hilsum-Gunn effect
- Righi-Leduc effect
- Rijke effect
- ripple effect
- ripple-through effect
- Rocky-Point effect
- S-effect
- Sasaki-Shibuya effect
- Schottky effect
- schrot effect
- screening effect
- seasonal effect
- Seebeck effect
- shore effect
- short-channel effect
- short-run effect
- shot effect
- side effect
- sidewalk effect
- Silsbee effect
- size effect
- skin effect
- sound effects
- space-charge effect
- special effects
- speckle effect
- spillover effect
- Stark effect
- stereo effect
- stereophonic effect
- stereoscopic effect
- Stiles-Crawford effect
- stimulated Raman effect
- stirring effect
- storage effect
- stroboscopic effect
- Stroop effect
- Suhl effect
- superparamagnetic effect
- surface-charge effect
- surface field effect
- tensoresistive effect
- tertiary pyroelectric effect
- thermal effect
- thermoelectric effect
- thermogalvanomagnetic effect
- thermomagnetic effect
- Thomson effect
- threshold effect
- transferred-electron effect
- transverse galvanothermomagnetic effect
- transverse Hall effect
- transverse Kerr effect
- transverse magnetoresistive effect
- transverse Nernst-Ettingshausen effect
- transverse pumping instability effect
- transverse pumping spin wave instability effect
- transverse thermogalvanomagnetic effect
- transverse thermomagnetic effect
- trap effect
- trapping effect
- tunnel effect
- tunneling effect
- turnpike effect
- twisted nematic effect
- Tyndall effect
- Venetian blind effect
- vertical component effect
- Villari effect
- Voigt effect
- Volta effect
- wall effect
- Webster effect
- Wertheim effect
- Wiedemann effect
- Wiegand effect
- window effect
- word superiority effect
- X-ray photoelectric effect
- Zeeman effect
- Zener effect
- ΔE-effect -
16 effect
1) эффект; явление || производить эффект; порождать явление2) влияние; (воз)действие || влиять; оказывать влияние; (воз)действовать; оказывать воздействие3) pl.; тлв.; вчт. спецэффекты•- ac Hall effect
- ac Josephson effect
- acoustic Doppler effect
- acoustical Faraday effect
- acoustoelectric effect
- acoustoresistive effect
- ambisonic effect
- anisotropic effect
- anode effect
- anomalous Hall effect
- anomalous Sasaki-Shibuya effect
- anomalous Zeeman effect
- antenna effect
- aspect effect
- atomic photoelectric effect
- Auger effect
- avalanche effect
- back stress effect
- background effect
- back-porch effect
- back-wall photoelectric effect
- Barkhausen effect
- Barnett effect
- barrier effect
- base-robbing effect
- binaural effect
- blackout effect
- blindness effect
- Boers effect
- Bragg effect
- Bridgman effect
- bulk effect
- Burstein-Moss effect
- butterfly effect
- capture effect
- Casimir effect
- Cerenkov effect
- channel effect
- charge-storage effect
- cocktail-party effect
- collector-follower effect
- colossal magnetoresistive effect
- comet effect
- Compton effect
- conductivity modulation effect
- contour effect
- conventional skin effect
- converse effect
- converse magnetostrictive effect
- Cooper effect
- Corbino effect
- corner effect
- corona effect
- Cotton effect
- Cotton-Mouton effect
- cryptomagnetic effect
- dc Hall effect
- dc Josephson effect
- dead-end effect
- Debye effect
- Debye-Sears effect
- delayed-sidetone effect
- Dellinger effect
- Dember effect
- dephasing effect
- Destriau effect
- digital multi-effects
- digital video effect
- direct piezoelectric effect
- domino effect
- Doppler effect
- dynamic pinch effect
- dynamic stereoscopic effect
- dynatron effect
- Early effect
- echo effect
- edge effect
- Edison effect
- effect of intermediate valence
- Einstein-de Haas effect
- elastooptical effect
- elastoresistive effect
- electroacoustic effect
- electrooptical effect
- electrooptical Kerr effect
- electro-opto-acoustical effect
- electroosmotic effect
- electrophonic effect
- electrophoretic effect
- electroresistive effect
- electrostatic Kerr effect
- electrostrictive effect
- emitter dip effect
- emitter push effect
- end effect
- equatorial Kerr effect
- equatorial magnetooptical Kerr effect
- Esaki effect
- Ettingshausen effect
- external photoelectric effect
- extrinsic photoconductive effect
- extrinsic photoelectric effect
- Faraday effect
- ferroelectric effect
- ferromagnetic proximity effect
- field effect
- field-rejection effect
- fixed effects
- flexoelectric effect
- flicker effect
- flywheel effect
- forbidden effect
- fractional quantum Hall effect
- fringe effect
- galvanomagnetic effects
- galvanothermomagnetic effects
- gap effect
- Gauss effect
- giant Hall effect
- giant magnetoimpedance effect
- giant magnetoresistive effect
- granularity effect
- greenhouse effect
- Gudden-Pohl effect
- Gunn effect
- gyromagnetic effects
- Haas effect
- Hall effect
- Hallwachs effect
- Hanle effect
- heating effect of current
- height effect
- hole-burning effect
- hyperfine effect
- image effect
- inlay effect
- interface effects
- internal photoelectric effect
- intrinsic photoconductive effect
- invar effect
- inverse effect
- inverse Faraday effect
- inverse photoelectric effect
- inverse piezoelectric effect
- island effect
- isotope effect
- Jahn-Teller effect
- Josephson effect
- Joule effect
- junction edge effect
- Kapitza-Dirac effect
- Kerr effect
- Kirk effect
- Kirkendall effect
- Kundt effect
- lagged effect
- laser effect
- Leduc-Righi effect
- linear electrooptic effect
- longitudinal galvanothermomagnetic effect
- longitudinal Kerr effect
- longitudinal magnetoresistive effect
- longitudinal thermomagnetic effect
- long-line effect
- long-run effect
- Lorentz effect
- Lossev effect
- Luxemburg effect
- Maggi-Righi-Leduc effect
- magnetoelastic effect
- magnetoelectric effect
- magnetogalvanic effects
- magnetoimpedance effect
- magnetooptical Kerr effect
- magnetoresistive effect
- magnetostrictive effect
- magnetron effect
- Malter effect
- Meisner effect
- meridional Kerr effect
- meridional magnetooptical Kerr effect
- metamagnetic effect
- metamagnetoelastic effect
- microphonic effect
- microwave biological effect
- Miller effect
- moiré effect
- Mössbauer effect
- motor effect
- multipactor effect
- multipath effect
- multi-valued Sasaki-Shibuya effect
- mutual coupling effect on input impedance
- mutual coupling effect on radiation pattern
- negative resistance effect
- Nernst effect
- Nernst-Ettingshausen effect
- night effect
- normal Hall effect
- normal Zeeman effect
- Nottingham effect
- Ovshinsky effect
- pairing effect
- parallel pumping instability effect
- parallel pumping spin wave instability effect
- Pashen-Back effect
- peak effect
- Peltier effect
- photocapacitor effect
- photoconductive effect
- photodielectric effect
- photodiffusion effect
- photoelastic effect
- photoelectret effect
- photoelectric effect
- photoelectromagnetic effect
- photoemissive effect
- photomagnetic effect
- photomagnetoelectric effect
- photopiezoelectric effect
- photothermoelectric effect
- photovoltaic effect
- picket-fence effect
- piezoelectric effect
- piezomagnetic effect
- piezomagnetoelectric effect
- piezooptical effect
- piezoresistance effect
- piezoresistive effect
- pinch effect
- pinch-in effect
- Pockels effect
- polar Kerr effect
- polar magnetooptical Kerr effect
- Pool-Frenkel effect
- print-through effect
- proximity effect
- pyroelectric effect
- pyromagnetic effect
- quadraphonic effect
- quadratic magnetooptical effect
- quadro effect
- quantized Hall effect
- quantum Hall effect
- Raman effect
- Ramsauer effect
- random effect
- rate effect
- red eyes effect
- Renner effect
- Richardson effect
- Ridley-Watkins-Hilsum-Gunn effect
- Righi-Leduc effect
- Rijke effect
- ripple effect
- ripple-through effect
- Rocky-Point effect
- S effect
- Sasaki-Shibuya effect
- Schottky effect
- schrot effect
- screening effect
- seasonal effect
- Seebeck effect
- shore effect
- short-channel effect
- short-run effect
- shot effect
- side effect
- sidewalk effect
- Silsbee effect
- size effect
- skin effect
- sound effects
- space-charge effect
- special effects
- speckle effect
- spillover effect
- Stark effect
- stereo effect
- stereophonic effect
- stereoscopic effect
- Stiles-Crawford effect
- stimulated Raman effect
- stirring effect
- storage effect
- stroboscopic effect
- Stroop effect
- Suhl effect
- superparamagnetic effect
- surface field effect
- surface-charge effect
- tensoresistive effect
- tertiary pyroelectric effect
- thermal effect
- thermoelectric effect
- thermogalvanomagnetic effect
- thermomagnetic effect
- Thomson effect
- threshold effect
- transferred-electron effect
- transverse galvanothermomagnetic effect
- transverse Hall effect
- transverse Kerr effect
- transverse magnetoresistive effect
- transverse Nernst-Ettingshausen effect
- transverse pumping instability effect
- transverse pumping spin wave instability effect
- transverse thermogalvanomagnetic effect
- transverse thermomagnetic effect
- trap effect
- trapping effect
- tunnel effect
- tunneling effect
- turnpike effect
- twisted nematic effect
- Tyndall effect
- Venetian blind effect
- vertical component effect
- Villari effect
- Voigt effect
- Volta effect
- wall effect
- Webster effect
- Wertheim effect
- Wiedemann effect
- Wiegand effect
- window effect
- word superiority effect
- X-ray photoelectric effect
- Zeeman effect
- Zener effectThe New English-Russian Dictionary of Radio-electronics > effect
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17 channel
1) радиоканал, полоса частот шириной 10 кГц, предоставленная службам радиосвязи2) ТВ-канал, полоса частот шириной 6 МГц, предоставленная службам ТВ-вещания3) тракт4) дорожка•- adjacent channel
- aeronautical emergency channel
- air channel
- air-air channel
- air-ground channel
- allocated channel
- alpha channel
- analog channel
- analog data channel
- associated channel
- associated signaling channel
- asynchronous channel
- audio channel
- automatic's line channel
- auxiliary channel
- average-speed signaling channel
- backward channel
- balanced channel
- band-limited channel
- base cable channel
- base RF-channel
- baseband channel
- B-channel
- bidirectional interaction channel
- bidirectional intercom channel
- binary symmetric channel
- binomial channel
- blank channel
- block multiplexor channel
- blue channel
- branching channel
- brightness channel
- broadband channel
- broadband multiplexing channel
- broadcast TV-radio channel
- buffered I/O channel
- bypass channel
- byte-multiplexor channel
- cable channel
- calling channel
- camera channel
- carrier-current channel
- chroma channel
- chrominance channel
- clear channel
- coherent channel
- color channel
- color-difference channel
- color-sync channel
- common-user channel
- communication channel
- complex high-frequency line channel
- confidence channel
- continuous channel
- continuous-discrete channel
- control channel
- covertness-protected channel
- cue channel
- data transfer channel
- data transmission channel
- D-channel
- D-echo channel
- dedicated channel
- deep-sound channel
- delta channel
- department communication channel
- digital data channel
- direct channel
- direct control channel
- direct receiving channel
- direct satellite channel
- discrete channel
- discrete-continuous channel
- dispatch communication channel
- double-pole channel
- drop-insertion channel
- duplex communication channel
- E-channel
- electric communication channel
- electric protection channel
- elementary channel
- emergency-radio channel
- engineering channel
- enhanced discrete channel
- even channel
- exchange channel
- fast channel
- fast-acting channel
- fax-modem channel
- feedback channel
- fiber optic communication channel
- firing channel
- fixed-tuned channel
- forcible-borrowed channel
- forward channel
- forward wideband delivery channel
- four-wire channel
- frequency signaling channel
- full-rate traffic channel
- green channel
- group channel
- guard channel
- half-duplex channel
- half-rate traffic channel
- H-channel
- head channel
- health channel
- HF broadband channel
- HF multiplexed channel
- high voltage aerial cable line channel
- highest grade channel
- high-frequency channel
- high-speed signaling channel
- high-voltage aerial line channel
- high-voltage cable line channel
- high-voltage tone line channel
- hydroacoustic channel
- I channel
- ideal channel
- image channel
- in-band orderwire channel
- induced channel
- information bearer channel
- information channel
- infrared channel
- input channel
- input-output channel
- interaction channel
- intercepting-protected channel
- interference channel
- intermodulation channel
- internal phase channel
- internal wire channel
- intrabasin channel
- intradistrict telegraph channel
- intraregional telegraph channel
- ionospheric channel
- isolated bundled phase channel
- jamming channel
- labeled channel
- labeled-statistical channel
- leased channel
- left front channel
- left rear channel
- left stereophonic channel
- line channel
- linear random channel
- line-of-sight channel
- local channel
- logical channel
- long-communication bypass channel
- long-distance channel
- low-frequency channel
- luminance channel
- M channel
- marine radio communication channel
- memory channel
- memoryless channel
- meteor-burst channel
- mobile communication channel
- monochrome channel
- multipath channel
- multiplexing channel
- noiseless channel
- noisy channel
- noncoherent channel
- nonfixed channel
- nonswitched channel
- nonsynchronous channel
- off-hook channel
- one-piece channel
- one-way channel
- open channel
- optimal channel
- optoelectronic channel
- ordinary channel
- outband channel
- output channel
- parallel access channel
- parallel optical channel
- parasitic channel
- peripheral-interface channel
- phase line channel
- phase-phase pitch line channel
- physical channel
- picture channel
- pilot channel
- pipeline control channel
- pitch communication channel
- planar channel
- positioned channel
- primary channel
- protection channel
- Q channel
- quadrature channel
- radio communication channel
- radiotelegraph channel
- radiotelephone channel
- read/write channel
- reception channel
- red channel
- relay channel
- relay protected channel
- return channel
- reverse channel
- reverse control channel
- Ricean channel
- right channel
- right front channel
- right rear channel
- right stereophonic channel
- road safety channel
- road servicing channel
- S channel
- safety channel
- satellite communication channel
- scatter channel
- secondary channel
- selector channel
- send channel
- sensor channel
- separate resonance channel
- series optical channel
- service communication channel
- shared channel
- ship-to-shore channel
- shore-to-ship channel
- side channel
- signal channel
- signaling channel
- single-beam channel
- single-ended channel
- slow channel
- slow-acting channel
- sound broadcasting channel
- sound channel
- space-craft channel
- special cable-line channel
- speech channel
- standard broadcast channel
- subvoice grade channel
- sum channel
- supervisory channel
- switched channel
- symmetrical channel
- synchronous channel
- telecommunication channel
- telemechanic channel
- telemetering channel
- telephone channel
- television channel
- time-derived channel
- toll cable channel
- tone frequency channel
- top channel
- traffic channel
- train dispatch communication channel
- train radio communication line channel
- transfer channel
- transmission channel
- transmission service channel
- transparent channel
- trunk channel
- TV-frequency channel
- TV-observation channel
- two-wire channel
- video channel
- virtual signaling channel
- voice channel
- voice-band channel
- waste channel
- wave channel
- wire communication channel
- wireless channel
- working channel
- write channelEnglish-Russian dictionary of telecommunications and their abbreviations > channel
-
18 LW
-
19 line
1) линия; черта || проводить линию; линовать2) строка; строчка3) геом. прямая4) конвейер; технологическая линия; поточная линия5) канат; трос; мор. линь6) трубопровод || прокладывать трубопровод7) футеровка; кладка || футеровать; выкладывать8) облицовка || облицовывать9) геом. ось10) очередь, хвост11) ряд; серия; линия; партия ( изделий)12) контур; очертания13) линия (связи)15) рельсовый путь16) горн. отвес ( для направления выработок)17) короткое письмо18) соосный || располагать соосно•in line — на одной линии; совмещённый; совпадающий
in line with — в соответствии с; согласующийся с
in straight lines — мат. прямолинейно
in the line of — в направлении, по направлению, вдоль, по линии
line tangent to — геом. касательная к
no lines — телефон. все линии заняты ( служебный сигнал)
plotted as a line — мат. выраженный [представленный] линией ( о функциональной зависимости)
to line up on approach lights — авиац. выходить на огни
to produce a line — геом. построить линию
to seize a line — телефон. занимать линию
- absorption spectral line - coaxial supply line - coaxial transmission lineto take in line — полигр. вгонять строку
- cut line- die line- downstream water line- end line- line of constant rotation - line of equal probability - multischedule private line - numerical line - projective line - properly parallel lines - real number line - section line - water-oil interface line - waveguide transmission line -
20 Portuguese Communist Party
(PCP)The Portuguese Communist Party (PCP) has evolved from its early anarcho-syndicalist roots at its formation in 1921. This evolution included the undisciplined years of the 1920s, during which bolshevization began and continued into the 1930s, then through the years of clandestine existence during the Estado Novo, the Stalinization of the 1940s, the "anarcho-liberal shift" of the 1950s, the emergence of Maoist and Trotskyist splinter groups of the 1960s, to legalization after the Revolution of 25 April 1974 as the strongest and oldest political party in Portugal. Documents from the Russian archives have shown that the PCP's history is not a purely "domestic" one. While the PCP was born on its own without Soviet assistance, once it joined the Communist International (CI), it lost a significant amount of autonomy as CI officials increasingly meddled in PCP internal politics by dictating policy, manipulating leadership elections, and often financing party activities.Early Portuguese communism was a mix of communist ideological strands accustomed to a spirited internal debate, a lively external debate with its rivals, and a loose organizational structure. The PCP, during its early years, was weak in grassroots membership and was basically a party of "notables." It was predominantly a male organization, with minuscule female participation. It was also primarily an urban party concentrated in Lisbon. The PCP membership declined from 3,000 in 1923 to only 40 in 1928.In 1929, the party was reorganized so that it could survive clandestinely. As its activity progressed in the 1930s, a long period of instability dominated its leadership organs as a result of repression, imprisonments, and disorganization. The CI continued to intervene in party affairs through the 1930s, until the PCP was expelled from the CI in 1938-39, apparently because of its conduct during police arrests.The years of 1939-41 were difficult ones for the party, not only because of increased domestic repression but also because of internal party splits provoked by the Nazi-Soviet pact and other foreign actions. From 1940 to 1941, two Communist parties struggled to attract the support of the CI and accused each other of "revisionism." The CI was disbanded in 1943, and the PCP was not accepted back into the international communist family until its recognition by the Cominform in 1947.The reorganization of 1940-41 finally put the PCP under the firm control of orthodox communists who viewed socialism from a Soviet perspective. Although Soviet support was denied the newly reorganized party at first, the new leaders continued its Stalinization. The enforcement of "democratic centralism" and insistence upon the "dictatorship of the proletariat" became entrenched. The 1940s brought increased growth, as the party reached its membership apex of the clandestine era with 1,200 members in 1943, approximately 4,800 in 1946, and 7,000 in 1947.The party fell on hard times in the 1950s. It developed a bad case of paranoia, which led to a witch hunt for infiltrators, informers, and spies in all ranks of the party. The lower membership figures who followed the united antifascist period were reduced further through expulsions of the "traitors." By 1951, the party had been reduced to only 1,000 members. It became a closed, sectarian, suspicious, and paranoiac organization, with diminished strength in almost every region, except in the Alentejo, where the party, through propaganda and ideology more than organizational strength, was able to mobilize strikes of landless peasants in the early 1950s.On 3 January 1960, Álvaro Cunhal and nine other political prisoners made a spectacular escape from the Peniche prison and fled the country. Soon after this escape, Cunhal was elected secretary-general and, with other top leaders, directed the PCP from exile. Trotskyite and Maoist fractions emerged within the party in the 1960s, strengthened by the ideological developments in the international communist movement, such as in China and Cuba. The PCP would not tolerate dissent or leftism and began purging the extreme left fractions.The PCP intensified its control of the labor movement after the more liberal syndical election regulations under Prime Minister Mar- cello Caetano allowed communists to run for leadership positions in the corporative unions. By 1973, there was general unrest in the labor movement due to deteriorating economic conditions brought on by the colonial wars, as well as by world economic pressures including the Arab oil boycott.After the Revolution of 25 April 1974, the PCP enjoyed a unique position: it was the only party to have survived the Estado Novo. It emerged from clandestinity as the best organized political party in Portugal with a leadership hardened by years in jail. Since then, despite the party's stubborn orthodoxy, it has consistently played an important role as a moderating force. As even the Socialist Party (PS) was swept up by the neoliberal tidal wave, albeit a more compassionate variant, increasingly the PCP has played a crucial role in ensuring that interests and perspectives of the traditional Left are aired.One of the most consistent planks of the PCP electoral platform has been opposition to every stage of European integration. The party has regularly resisted Portuguese membership in the European Economic Community (EEC) and, following membership beginning in 1986, the party has regularly resisted further integration through the European Union (EU). A major argument has been that EU membership would not resolve Portugal's chronic economic problems but would only increase its dependence on the world. Ever since, the PCP has argued that its opposition to membership was correct and that further involvement with the EU would only result in further economic dependence and a consequent loss of Portuguese national sovereignty. Further, the party maintained that as Portugal's ties with the EU increased, the vulnerable agrarian sector in Portugal would risk further losses.Changes in PCP leadership may or may not alter the party's electoral position and role in the political system. As younger generations forget the uniqueness of the party's resistance to the Estado Novo, public images of PCP leadership will change. As the image of Álvaro Cunhal and other historical communist leaders slowly recedes, and the stature of Carlos Carvalhas (general secretary since 1992) and other moderate leaders is enhanced, the party's survival and legitimacy have strengthened. On 6 March 2001, the PCP celebrated its 80th anniversary.See also Left Bloc.Historical dictionary of Portugal > Portuguese Communist Party
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