optics coating

optics coating

Военный термин: осветляющее покрытие линзы

electron-beam coating

Optics: EBC

multilayer antireflection coating

Optics: MLAR

эксцентриситет покрытия и оболочки волокна

Optics: coating/cladding concentricity error

осветляющее покрытие линзы

Military: lens coating, lens filming, optics coating, optics filming

фильтрующее покрытие

Optics: solar-blind coating

Eastman, George

SUBJECT AREA: Photography, film and optics

[br]

b. 12 July 1854 Waterville, New York, USA

d. 14 March 1932 Rochester, New York, USA

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American industrialist and pioneer of popular photography.

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The young Eastman was a clerk-bookkeeper in the Rochester Savings Bank when in 1877 he took up photography. Taking lessons in the wet-plate process, he became an enthusiastic amateur photographer. However, the cumbersome equipment and noxious chemicals used in the process proved an obstacle, as he said, "It seemed to be that one ought to be able to carry less than a pack-horse load." Then he came across an account of the new gelatine dry-plate process in the British Journal of Photography of March 1878. He experimented in coating glass plates with the new emulsions, and was soon so successful that he decided to go into commercial manufacture. He devised a machine to simplify the coating of the plates, and travelled to England in July 1879 to patent it. In April 1880 he prepared to begin manufacture in a rented building in Rochester, and contacted the leading American photographic supply house, E. \& H.T.Anthony, offering them an option as agents. A local whip manufacturer, Henry A.Strong, invested $1,000 in the enterprise and the Eastman Dry Plate Company was formed on 1 January 1881. Still working at the Savings Bank, he ran the business in his spare time, and demand grew for the quality product he was producing. The fledgling company survived a near disaster in 1882 when the quality of the emulsions dropped alarmingly. Eastman later discovered this was due to impurities in the gelatine used, and this led him to test all raw materials rigorously for quality. In 1884 the company became a corporation, the Eastman Dry Plate \& Film Company, and a new product was announced. Mindful of his desire to simplify photography, Eastman, with a camera maker, William H.Walker, designed a roll-holder in which the heavy glass plates were replaced by a roll of emulsion-coated paper. The holders were made in sizes suitable for most plate cameras. Eastman designed and patented a coating machine for the large-scale production of the paper film, bringing costs down dramatically, the roll-holders were acclaimed by photographers worldwide, and prizes and medals were awarded, but Eastman was still not satisfied. The next step was to incorporate the roll-holder in a smaller, hand-held camera. His first successful design was launched in June 1888: the Kodak camera. A small box camera, it held enough paper film for 100 circular exposures, and was bought ready-loaded. After the film had been exposed, the camera was returned to Eastman's factory, where the film was removed, processed and printed, and the camera reloaded. This developing and printing service was the most revolutionary part of his invention, since at that time photographers were expected to process their own photographs, which required access to a darkroom and appropriate chemicals. The Kodak camera put photography into the hands of the countless thousands who wanted photographs without complications. Eastman's marketing slogan neatly summed up the advantage: "You Press the Button, We Do the Rest." The Kodak camera was the last product in the design of which Eastman was personally involved. His company was growing rapidly, and he recruited the most talented scientists and technicians available. New products emerged regularly—notably the first commercially produced celluloid roll film for the Kodak cameras in July 1889; this material made possible the introduction of cinematography a few years later. Eastman's philosophy of simplifying photography and reducing its costs continued to influence products: for example, the introduction of the one dollar, or five shilling, Brownie camera in 1900, which put photography in the hands of almost everyone. Over the years the Eastman Kodak Company, as it now was, grew into a giant multinational corporation with manufacturing and marketing organizations throughout the world. Eastman continued to guide the company; he pursued an enlightened policy of employee welfare and profit sharing decades before this was common in industry. He made massive donations to many concerns, notably the Massachusetts Institute of Technology, and supported schemes for the education of black people, dental welfare, calendar reform, music and many other causes, he withdrew from the day-to-day control of the company in 1925, and at last had time for recreation. On 14 March 1932, suffering from a painful terminal cancer and after tidying up his affairs, he shot himself through the heart, leaving a note: "To my friends: My work is done. Why wait?" Although Eastman's technical innovations were made mostly at the beginning of his career, the organization which he founded and guided in its formative years was responsible for many of the major advances in photography over the years.

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Further Reading

C.Ackerman, 1929, George Eastman, Cambridge, Mass.

B.Coe, 1973, George Eastman and the Early Photographers, London.

BC

fibre

n (BrE)

C&G, OPT, PAPER, TELECOM, TEXTIL fibra f

fibre axis

fibre buffer

fibre bundle

fibre cladding

fibre coating

fibre composition

fibre content

fibre core

fibre crop

fibre-distributed data interface

fibre drum

fibre excess length

fibre feeder

fibre furnish

fibre gasket

fibre helix

fibre jacket

fibre joint

fibre-like material

fibre-optic

fibre-optic cable

fibre-optic cladding

fibre-optic connection

fibre-optic connector

fibre-optic modem

fibre-optic network

fibre-optic receiver

fibre-optic splice

fibre-optic technology

fibre-optic terminal device

fibre-optic transducer

fibre-optic transmission

fibre-optic transmission system

fibre-optic transmitter

fibre-optics

fibre-optics equipment

fibre pigtail

fibre-reinforced sand

fibre rope

fibre scattering

fibre texture

fibre to the building

fibre to the home

fibre to the kerb

fibre to the office

fibre-type sling

fibre washer

нанесение покрытий

1) Optics: blooming

2) Makarov: coating, coating process, plating

амортизирующее покрытие

1) Optics: buffering

2) Telecommunications: buffer coating

просветление

1) General subject: translucence (оптики), (в разуме) lightbulb moment

2) Medicine: clarification, clearing (гистологического препарата), lucid (сознания (период ремиссии,как правило краткосрочный [ от нескольких часов,до нескольких суток ],при тяжёлых психических заболеваниях)

3) Engineering: fading (наведённой окраски)

4) Religion: enlightenment

5) Optics: blooming

6) Radiology: lucency

7) Histology: clarification (объекта)

8) Fishery: his clarification

9) Makarov: coating (объектива)

Godowsky, Leopold Jr

SUBJECT AREA: Photography, film and optics

[br]

b. 27 May 1900 Chicago, Illinois, USA d. 1983

[br]

American musician and photographic experimenter whose researches, with those of his colleague Mannes, led to the introduction of the first commercial tripack colour film, Kodachrome.

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Both from distinguished musical families, Godowsky and Leopold Damrosch Mannes met at Riverdale School in New York in 1916, and shared an interest in photography. They began experiments in methods of additive colour photography, gaining a patent for a three-colour projector. Godowsky went to the University of California to study chemistry, physics and mathematics, while working as a professional violinist; Mannes, a pianist, went to Harvard to study music and physics. They kept in touch, and after graduating they joined up in New York, working as musicians and experimenting in colour photography in their spare time.

Initially working in kitchens and bathrooms, they succeeded in creating a two-layer colour photographic plate, with emulsions separately sensitized to parts of the spectrum, and patented the process. This achievement was all the greater since they were unable to make the emulsions themselves and had to resort to buying commercial photographic plates so that they could scrape off the emulsions, remelt them and coat their experimental materials. In 1922 their work came to the attention of C.E.K. Mees, the leading photographic scientist and Director of the Eastman Kodak Research Laboratory in Rochester, New York. Mees arranged for plates to be coated to their specifications. With a grant from Kuhn, Loeb \& Co. they were able to rent laboratory space. Learning of Rudolf Fischer's early work on dye couplers, they worked to develop a new process incorporating them. Mees saw that their work, however promising, would not develop in an amateur laboratory, and in 1930 he invited them to join the Kodak Research Laboratory, where they arrived on 15 June 1931. Their new colleagues worked on ways of coating multi-layer film, while Mannes and Godowsky worked out a method of separately processing the individual layers in the exposed film. The result was Kodachrome film, the first of the modern integral tripack films, launched on 15 April 1935.

They remained with Eastman Kodak until December 1939; their work contributed to the later appearance of Ektachrome colour-reversal film and the Kodacolor and Eastman Color negative-positive colour processes. Mannes became the Director of his father's Music Academy in New York, remaining as such until his death in 1964. Godowsky returned to Westport, Connecticut, and continued to study mathematics at Columbia University. He carried out photographic research un his private laboratory up until the time of his death in 1983.

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Further Reading

C.E.K.Mees, 1961, From Dry Plates to Ektachrome Film, New York.

BC

Mees, Charles Edward Kenneth

SUBJECT AREA: Photography, film and optics

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b. 1882 Wellingborough, England

d. 1960 USA

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Anglo-American photographic scientist and Director of Research at the Kodak Research Laboratory.

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The son of a Wesleyan minister, Mees was interested in chemistry from an early age and studied at St Dunstan's College in Catford, where he met Samuel E.Sheppard, with whom he went on to University College London in 1900. They worked together on a thesis for BSc degrees in 1903, developing the work begun by Hurter and Driffield on photographic sensitometry. This and other research papers were published in 1907 in the book Investigations on the Theory of the Photographic Process, which became a standard reference work. After obtaining a doctorate in 1906, Mees joined the firm of Wratten \& Wainwright (see F.C.L.Wratten), manufacturers of dry plates in Croydon; he started work on 1 April 1906, first tackling the problem of manufacturing colour-sensitive emulsions and enabling the company to market the first fully panchromatic plates from the end of that year.

During the next few years Mees ran the commercial operation of the company as Managing Director and carried out research into new products, including filters for use with the new emulsions. In January 1912 he was visited by George Eastman, the American photographic manufacturer, who asked him to go to Rochester, New York, and set up a photographic research laboratory in the Kodak factory there. Wratten was prepared to release Mees on condition that Eastman bought the company; thus, Wratten and Wainwright became part of Kodak Ltd, and Mees left for America. He supervised the construction of a building in the heart of Kodak Park, and the building was fully equipped not only as a research laboratory, but also with facilities for coating and packing sensitized materials. It also had the most comprehensive library of photographic books in the world. Work at the laboratory started at the beginning of 1913, with a staff of twenty recruited from America and England, including Mees's collaborator of earlier years, Sheppard. Under Mees's direction there flowed from the Kodak research Laboratory a constant stream of discoveries, many of them leading to new products. Among these were the 16 mm amateur film-making system launched in 1923; the first amateur colour-movie system, Kodacolor, in 1928; and 8 mm home movies, in 1932. His support for the young experimenters Mannes and Godowsky, who were working on colour photography, led to their joining the Research Laboratory and to the introduction of the first multi-layer colour film, Kodachrome, in 1935. Eastman had agreed from the beginning that as much of the laboratory's work as possible should be published, and Mees himself wrote prolifically, publishing over 200 articles and ten books. While he made significant contributions to the understanding of the photographic process, particularly through his early research, it is his creation and organization of the Kodak Research Laboratory that is his lasting memorial. His interests were many and varied, including Egyptology, astronomy, marine biology and history. He was a Fellow of the Royal Society.

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Principal Honours and Distinctions

FRS.

Bibliography

1961, From Dry Plates to Ektachrome Film, New York (partly autobiographical).

BC

Wratten, Frederick Charles Luther

SUBJECT AREA: Photography, film and optics

[br]

b. 1840 England

d. 8 April 1926 London, England

[br]

English inventor and manufacturer, founder of one of the first successful gelatine dry-plate companies.

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He started his working life as a schoolteacher, but in his early twenties he moved to London to become a clerk with a photographic wholesaler, Soloman. There Wratten became interested in photography, and on the announcement of the new gelatine dry-plate processes he began to conduct his own experiments. In 1876 he devised a means of drying gelatine emulsions and removing excess silver with alcohol, and published details in 1877 and 1878. It was during this period that he formed a partnership with Henry Wainwright to manufacture and sell photographic materials. The mass production of gelatine dry plates was a British invention and monopoly, and the new firm of Wratten \& Wainwright was one of the first in the field and soon proved to be amongst the most successful. The business exported extensively to Europe, introducing a succession of plates of increasing sensitivity. Wratten continued to trade under the same name when his partner Wainwright died in 1882. His success continued, and in 1890 he moved the company to a newly equipped factory in Croydon, near London. Six years later Wratten incorporated as co-owners of the business his son, S.H.Wainwright and a young graduate from London University, C.E.Kenneth Mees. The newly constituted company soon introduced the first British panchromatic plates and filters. The introduction of Lumiere's Autochrome plates in 1907 prompted Wratten and Mees to take out a patent on a colour screen plate process of their own. The company also found work coating plates for other similar innovations. In 1912 the business was finally sold to George Eastman and Wratten and Mees joined Kodak Ltd at Harrow.

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Bibliography

Wratten's early work on the action of alcohol on gelatine emulsions was described in a series of articles: 1877, Photographic News: 390, 49.

1878, Photographic News: 121–3.

1878, British Journal of Photography: 124–5.

Further Reading

E.J.Wall, 1925, Three Colour Photography.

C.E.K.Mees, 1961, From Dry Plates to Ektachrome Film, New York.

JW