using a laser

laser

laser [lazεʀ]

masculine noun

laser

• disque/rayon laser laser disc/beam

• au laser [nettoyer, détruire, découper] using a laser

• guidé au laser laser-guided

* * *

lazɛʀ

nom masculin laser

* * *

lazɛʀ adj inv

rayon laser — laser beam

platine laser — compact disc player

disque laser — laser disc

* * *

laser nm laser; faisceau laser laser beam; imprimante à laser laser printer.

[lazɛr] nom masculin

laser

traitement au laser laser treatment

enregistrement laser

a. [procédé] laser recording

b. [disque] laser disc

faisceau laser laser beam

cutting assembly using laser

см. cutting laser tool

Optical Covert Communications Using Laser Transceivers

Abbreviation: OCCULT (USA)

optical covert communications using laser transceivers

Abbreviation: OCCULT (USA)

optical pulse transmitter using laser

Engineering: OPTUL

легко доступный

•

Using readily available laser photons...

легко доступный

•

Using readily available laser photons...

holograma

m.

hologram.

* * *

holograma

► nombre masculino

1 hologram

* * *

SM hologram

* * *

masculino hologram

* * *

= hologram.

Nota: Documento que se obtiene por un proceso de proyección de imágenes sin lentes usando una técnica de rayo láser dividido.

Ex. A hologram is a document obtained by a process of optical imaging without lenses using a split laser beam technique.

----

* proyector de hologramas = holographic display unit.

* * *

masculino hologram

* * *

= hologram.

Nota: Documento que se obtiene por un proceso de proyección de imágenes sin lentes usando una técnica de rayo láser dividido.

Ex: A hologram is a document obtained by a process of optical imaging without lenses using a split laser beam technique.

* proyector de hologramas = holographic display unit.

* * *

holograma

masculine

hologram

* * *

holograma sustantivo masculino hologram
' holograma' also found in these entries:
English:
hologram

* * *

holograma nm

hologram

* * *

holograma

m hologram

* * *

holograma nm

: hologram

Maiman, Theodore Harold

SUBJECT AREA: Electronics and information technology, Photography, film and optics

[br]

b. 11 July 1927 Los Angeles, California, USA

[br]

American physicist who developed the laser.

[br]

The son of an electrical engineer, Theodore H. Maiman graduated with the degree of BS in engineering physics from the University of Colorado in 1949. He then went on to do postgraduate work at Stanford University, where he gained an MS in electrical engineering in 1951 and a PhD in physics in 1955 for work on spectroscopy using microwave-optical techniques. He then joined the Hughes Research Laboratories, where he worked on the stimulated emission of microwave energy. In this field Charles H. Townes had developed the maser (an acronym of microwave amplification by stimulated emission of radiation) and in a paper in 1958 with Arthur L. Schawlow he had suggested the possibility of a further development into optical frequencies, or, of an optical maser, later known as a laser (an acronym of light amplification by stimulated emission of radiation). Maiman was the first to achieve this when in May 1960 he operated a ruby laser and coherent light was produced for the first time. In 1962 he founded his own company, Korad Corporation, for research, development and manufacture of high-power lasers. He founded Maiman Associates in 1968, acting as consultant on lasers and optics. He was a co-founder of the Laser Video Corporation in 1972, and in 1976 he became Vice-President for advanced technology at TRW Electronics.

[br]

Principal Honours and Distinctions

Franklin Institute Stuart Ballantine Medal 1962. American Electrical Society/American Astronautical Society Award 1965. American Physical Society Oliver E.Buckley Solid State Physics Prize 1966. Fannie and John Hertz Foundation Award for Applied Physical Science 1966. American Optical Society R.W.Wood Prize 1976.

Bibliography

1980, entry in McGraw-Hill Modern Scientists and Engineers, Part 2, New York, pp. 271–2 (autobiographical).

RTS

Townes, Charles Hard

SUBJECT AREA: Electronics and information technology

[br]

b. 28 July 1915 Greenville, South Carolina, USA

[br]

American physicist who developed the maser and contributed to the development of the laser.

[br]

Charles H.Townes entered Furman University, Greenville, at the early age of 16 and in 1935 obtained a BA in modern languages and a BS in physics. After a year of postgraduate study at Duke University, he received a master's degree in physics in 1936. He then went on to the California Institute of Technology, where he obtained a PhD in 1939. From 1939 to 1947 he worked at the Bell Telephone Laboratories, mainly on airborne radar, although he also did some work on radio astronomy. In 1948 he joined Columbia University as Associate Professor of Physics and in 1950 was appointed a full professor. He was Director of the University's Radiation Laboratory from 1950 to 1952, and from 1952 to 1955 he was Chairman of the Physics Department.

To meet the need for an oscillator generating very short wavelength electromagnetic radiation, Townes in 1951 realized that use could be made of the different natural energy levels of atoms and molecules. The practical application of this idea was achieved in his laboratory in 1953 using ammonia gas to make the device known as a maser (an acronym of microwave amplification by stimulated emission of radiation). The maser was developed in the next few years and in 1958, in a joint paper with his brother-in-law Arthur L. Schawlow, Townes suggested the possibility of a further development into optical frequencies or an optical maser, later known as a laser (an acronym of light amplification by stimulated emission of radiation). Two years later the first such device was made by Theodore H. Maiman.

In 1959 Townes was given leave from Columbia University to serve as Vice-President and Director of Research at the Institute for Defense Analyses until 1961. He was then appointed Provost and Professor of Physics at the Massachusetts Institute of Technology. In 1967 he became University Professor of Physics at the University of California, where he has extended his research interests in the field of microwave and infra-red astronomy. He is a member of the National Academy of Sciences, the Institute of Electrical and Electronics Engineers and the American Astronomical Society.

[br]

Principal Honours and Distinctions

Nobel Prize for Physics 1964. Foreign Member, Royal Society of London. President, American Physical Society 1967. Townes has received many awards from American and other scientific societies and institutions and honorary degrees from more than twenty universities.

Bibliography

Townes is the author of many scientific papers and, with Arthur L.Schawlow, of

Microwave Spectroscopy (1955).

1980, entry, McGraw-Hill Modern Scientists and Engineers, Part 3, New York, pp. 227– 8 (autobiography).

1991, entry, The Nobel Century, London, p. 106 (autobiography).

Further Reading

T.Wasson (ed.), 1987, Nobel Prize Winners, New York, pp. 1,071–3 (contains a short biography).

RTS

важно иметь в виду, что

•

It is important to keep in mind (or remember) that will vary as the dye laser beam passes through the sample cell.

* * *

Важно иметь в виду, что

 It is important to bear in mind that this aperture does not represent the oblique crack case.

 As concerns Type B embrittlement, it is important to realize that the ductile-brittle transition temperature is not a material constant.

 These are mass-averaged kinetic allergies, and it is important to recognize that u is also defined in Equation (...) using mass-averaged values.

обычный

. довольно обычный метод; при обычной температуре; с обычными покрышками

•

The standard enthalpies of some common compounds...

•

Using either conventional or laser excitation sources...

•

With the advent of new engineering techniques, X-ray diffraction has become a commonplace tool for studies of...

•

This phenomenon is rather common in plants.

•

Customary (or Conventional) techniques can be...

•

We used familiar methods.

•

Ordinary paint is of little value in...

•

The new product outperforms regular lubricants.

•

The automatic press embodies all the regular features of the semi-automatic press plus...

•

Another standard technique is vacuum fusion.

•

The usual practice is...

•

If an electric field is applied to an ordinary atom,...

при использовании

•

With a laser, this approach fails.

•

In use (or When in use), a rotating shaft is inserted in...

•

Used (or When used) in tandem with a sock-type filter, the charcoal performs two functions.

•

Experiments were conducted using (or with the use of) the optimum quantities of...

•

All the stripping is done with the scraper fleet, utilizing a D8 tractor with...

•

When employing these compounds as fuel additives,...

•

With (or In) most methods, the precise regulation of carrier gas flow is rarely necessary.

устанавливать

. на котором устанавливается; на станке можно установить

•

The laser generator should be mounted vertically.

•

Conveyors have been erected (or installed, or set up) to convey coal to...

•

The valve should be fitted on the discharge side of the pipe.

•

The cabinet may be located (or sited) near the mill.

•

A workpiece is set upon the table.

•

A series of coils is arranged along the plasma duct.

II

. выяснять; заранее устанавливать; найдено, что; необходимо выяснить; обнаруживать, что; определять; расход устанавливается на таком уровне, при котором

•

Using this method we can arrive at the molecular formula of a compound.

•

The fundamental geological principles were established in the eighteenth century.

•

The method for working out the relative ages of rocks...

•

The mass velocities of the streams are fixed (or established, or assigned) when the cross section is selected.

•

The accuracy of the plots has not been fully ascertained.

•

The specification stipulates for each class of cement a maximum viscosity...

III

•

The conveyor may be adjusted to the proper discharge height.

•

This enables the table to be positioned automatically.

•

The thermostat control can be set at the degree of warming desired.

•

The amplifier is set for stable operation.

•

The monochromator is set to the same wavelength.

•

The propeller blades may be set to any desired pitch.

IV

•

The existence of this restriction can be recognized from the nature of the spectra.

•

Arrhenius recognized that this temperature dependence indicates an exponential increase in...

локальное высвобождение лекарственных средств из липосом с помощью лазерных импульсов

Makarov: topical drug release from liposomes using laser pulses

оптическая засекреченная связь с использованием лазерных приёмопередатчиков

Military: optical covert communications using laser transceivers

оптический импульсный лазерный передатчик

Engineering: optical pulse transmitter using laser

сильно н

General subject: the highly nonlinear coupling has led to new phenomena such as X-ray generation from high harmonics, above threshold ionization and above threshold dissociation, multiple ionization, and molecular ionization using near-infrared laser pulses

сильно нелин

General subject: highly nonlinear coupling has led to new phenomena such as X-ray generation from high harmonics, above threshold ionization and above threshold dissociation, multiple ionization, and molecular ionization using near-infrared laser pulses

скрытная оптическая связь с использованием лазерных приёмопередатчиков

Engineering: optical covert communications using laser transceivers