Farbfotografie

colour photography

noun

Farbfotografie, die

* * *

col·our pho·ˈtog·ra·phy

n no pl Farbfotografie f

* * *

noun

Farbfotografie, die

* * *

(UK) n.

Farbphotographie f.

colour photograph

noun

Farbfotografie, -aufnahme, die

* * *

noun

Farbfotografie, -aufnahme, die

chromotype

chromotype [ˈkrəʊməʊtaıp] s

1. Farbdruck m

2. Chromotypie f, Farbfotografie f (Bild und Verfahren)

color photography

color photography s Farbfotografie f

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(US) n.

Farbphotographie f.

heliochromy

heliochromy [ˈhiːlıəʊˌkrəʊmı] s FOTO Farbfotografie f

color film photography

< phot> ■ Farbfotografie fsg

color photograph

< phot> ■ Farbfotografie f ; Farbaufnahme f ; Farbfoto n ugs

color photography

sg < phot> ■ Farbfotografie fsg

color picture

US <tech.gen> ■ Farbbild n

< phot> ■ Farbfotografie f ; Farbaufnahme f ; Farbfoto n ugs

photochromy

photochromy [-ˌkrəʊmı] s HIST Farbfotografie f

colour photography

col·our pho·'tog·ra·phy n

no pl

Farbfotografie f

photograph

photo·graph [ʼfəʊtəgrɑ:f, Am ʼfoʊt̬əgræf] n

Fotografie f, Foto nt;

aerial \photograph Luftaufnahme f;

colour [or (Am) color] /black-and-white \photograph Farbfotografie/Schwarz-Weiß-Fotografie f;

nude \photograph Nacktfoto nt, Aktfoto nt;

to take a \photograph [of sb/sth] [jdn/etw] fotografieren, ein Foto [von jdm/etw] machen vt

to \photograph sb/ sth jdn/etw fotografieren vi

to \photograph well/ badly gut/schlecht auf Fotos aussehen;

he \photographs well er ist fotogen

colour photography

colour photography Farbfotografie f

lenticular process

lenticular process Linsenrasterverfahren n (z. B. in der Farbfotografie)

Ives, Frederic Eugene

SUBJECT AREA: Photography, film and optics

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b. 17 February 1856 Litchfield, Connecticut, USA

d. 27 May 1937 Philadelphia, Pennsylvania, USA

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American printer who pioneered the development of photomechanical and colour photographic processes.

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Ives trained as a printer in Ithaca, New York, and became official photographer at Cornell University at the age of 18. His research into photomechanical processes led in 1886 to methods of making halftone reproduction of photographs using crossline screens. In 1881 he was the first to make a three-colour print from relief halftone blocks. He made significant contributions to the early development of colour photography, and from 1888 he published and marketed a number of systems for the production of additive colour photographs. He designed a beam-splitting camera in which a single lens exposed three negatives through red, green and blue filters. Black and white transparencies from these negatives were viewed in a device fitted with internal reflectors and filters, which combined the three colour separations into one full-colour image. This device was marketed in 1895 under the name Kromskop; sets of Kromograms were available commercially, and special cameras, or adaptors for conventional cameras, were available for photographers who wished to take their own colour pictures. A Lantern Kromskop was available for the projection of Kromskop pictures. Ives's system enjoyed a few years of commercial success before simpler methods of making colour photographs rendered it obsolete. Ives continued research into colour photography; his later achievements included the design, in 1915, of the Hicro process, in which a simple camera produced sets of separation negatives that could be printed as dyed transparencies in complementary colours and assembled in register on paper to produce colour prints. Later, in 1932, he introduced Polychrome, a simpler, two-colour process in which a bipack of two thin negative plates or films could be exposed in conventional cameras. Ives's interest extended into other fields, notably stereoscopy. He developed a successful parallax stereogram process in 1903, in which a three-dimensional image could be seen directly, without the use of viewing devices. In his lifetime he received many honours, and was a recipient of the Royal Photographic Society's Progress Medal in 1903 for his work in colour photography.

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Further Reading

B.Coe, 1978, Colour Photography: The First Hundred Years, London J.S.Friedman, 1944, History of Colour Photography, Boston. G.Koshofer, 1981, Farbfotografie, Vol. I, Munich.

E.J.Wall, 1925, The History of Three-Colour Photography, Boston.

BC

Joly, John

SUBJECT AREA: Photography, film and optics

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b. 1857 Holywood, King's County (now County Down, Northwern Ireland), Ireland

d. 8 December 1933 Dublin, Eire

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Irish pioneer of additive screen-plate colour photography.

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Professor of Physics at Trinity College, Dublin, Joly developed a concept first suggested by Ducos du Hauron, creating in 1893 a process in which fine transparent red, green and blue lines, less than 0.1 mm wide, were ruled on a glass plate. The coloured inks were aniline dyes mixed with gum. This screen plate was held in close contact with a photographic negative plate which was exposed through the screen in a camera. The processed negative was printed onto a positive plate, and a viewing screen, similar to that used for taking, was bound up with it in careful register, to reproduce the original colours. The process was patented in 1894, and marketed in 1895. It was the first commercially successful additive screen-plate process to appear. While the results could be quite acceptable, the inadequate colour sensitivity of the negative plates then available limited the usefulness of this process. Professor Joly's other achievements included geological research and the treatment of cancer by radium.

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Further Reading

J.S.Friedman, 1944, History of Colour Photography, Boston.

B.Coe, 1978, Colour Photography: The First Hundred Years, London. G.Koshofer, 1981, Farbfotografie, Vol. I, Munich.

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Lippman, Gabriel

SUBJECT AREA: Photography, film and optics

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b. 16 August 1845 Hallerick, Luxembourg

d. 14 July 1921 at sea, in the North Atlantic

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French physicist who developed interference colour photography.

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Born of French parents, Lippman's work began with a distinguished career in classics, philosophy, mathematics and physics at the Ecole Normale in Luxembourg. After further studies in physics at Heidelberg University, he returned to France and the Sorbonne, where he was in 1886 appointed Director of Physics. He was a leading pioneer in France of research into electricity, optics, heat and other branches of physics.

In 1886 he conceived the idea of recording the existence of standing waves in light when it is reflected back on itself, by photographing the colours so produced. This required the production of a photographic emulsion that was effectively grainless: the individual silver halide crystals had to be smaller than the shortest wavelength of light to be recorded. Lippman succeeded in this and in 1891 demonstrated his process. A glass plate was coated with a grainless emulsion and held in a special plate-holder, glass towards the lens. The back of the holder was filled with mercury, which provided a perfect reflector when in contact with the emulsion. The standing waves produced during the exposure formed laminae in the emulsion, with the number of laminae being determined by the wavelength of the incoming light at each point on the image. When the processed plate was viewed under the correct lighting conditions, a theoretically exact reproduction of the colours of the original subject could be seen. However, the Lippman process remained a beautiful scientific demonstration only, since the ultra-fine-grain emulsion was very slow, requiring exposure times of over 10,000 times that of conventional negative material. Any method of increasing the speed of the emulsion also increased the grain size and destroyed the conditions required for the process to work.

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Principal Honours and Distinctions

Royal Photographic Society Progress Medal 1897. Nobel Prize (for his work in interference colour photography) 1908.

Further Reading

J.S.Friedman, 1944, History of Colour Photography, Boston.

Brian Coe, 1978, Colour Photography: The First Hundred Years, London. Gert Koshofer, 1981, Farbfotografie, Vol. I, Munich.

BC

Lumière, Auguste

SUBJECT AREA: Photography, film and optics

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b. 19 October 1862 Besançon, France

d. 10 April 1954 Lyon, France

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French scientist and inventor.

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Auguste and his brother Louis Lumière (b. 5 October 1864 Besançon, France; d. 6 June 1948 Bandol, France) developed the photographic plate-making business founded by their father, Charles Antoine Lumière, at Lyons, extending production to roll-film manufacture in 1887. In the summer of 1894 their father brought to the factory a piece of Edison kinetoscope film, and said that they should produce films for the French owners of the new moving-picture machine. To do this, of course, a camera was needed; Louis was chiefly responsible for the design, which used an intermittent claw for driving the film, inspired by a sewing-machine mechanism. The machine was patented on 13 February 1895, and it was shown on 22 March 1895 at the Société d'Encouragement pour l'In-dustrie Nationale in Paris, with a projected film showing workers leaving the Lyons factory. Further demonstrations followed at the Sorbonne, and in Lyons during the Congrès des Sociétés de Photographie in June 1895. The Lumières filmed the delegates returning from an excursion, and showed the film to the Congrès the next day. To bring the Cinématographe, as it was called, to the public, the basement of the Grand Café in the Boulevard des Capuchines in Paris was rented, and on Saturday 28 December 1895 the first regular presentations of projected pictures to a paying public took place. The half-hour shows were an immediate success, and in a few months Lumière Cinématographes were seen throughout the world.

The other principal area of achievement by the Lumière brothers was colour photography. They took up Lippman's method of interference colour photography, developing special grainless emulsions, and early in 1893 demonstrated their results by lighting them with an arc lamp and projecting them on to a screen. In 1895 they patented a method of subtractive colour photography involving printing the colour separations on bichromated gelatine glue sheets, which were then dyed and assembled in register, on paper for prints or bound between glass for transparencies. Their most successful colour process was based upon the colour-mosaic principle. In 1904 they described a process in which microscopic grains of potato starch, dyed red, green and blue, were scattered on a freshly varnished glass plate. When dried the mosaic was coated with varnish and then with a panchromatic emulsion. The plate was exposed with the mosaic towards the lens, and after reversal processing a colour transparency was produced. The process was launched commercially in 1907 under the name Autochrome; it was the first fully practical single-plate colour process to reach the public, remaining on the market until the 1930s, when it was followed by a film version using the same principle.

Auguste and Louis received the Progress Medal of the Royal Photographic Society in 1909 for their work in colour photography. Auguste was also much involved in biological science and, having founded the Clinique Auguste Lumière, spent many of his later years working in the physiological laboratory.

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Further Reading

Guy Borgé, 1980, Prestige de la photographie, Nos. 8, 9 and 10, Paris. Brian Coe, 1978, Colour Photography: The First Hundred Years, London ——1981, The History of Movie Photography, London.

Jacques Deslandes, 1966, Histoire comparée du cinéma, Vol. I, Paris. Gert Koshofer, 1981, Farbfotografie, Vol. I, Munich.

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