The Desmet Method (also known as Desmetcolor) is a method for restoring the colours of early silent films, which had originally been subjected to the processes of either:
It was developed by Noël Desmet, a film archivist and restorer working for the Cinémathèque Royale de Belgique in Brussels, Belgium. [2]
Before the 1960s, [3] early coloured films were almost without exception preserved on black and white film and the colours, if recorded at all, were only noted in writing. These actions have cost many subsequent restorations dearly. [4] However, there are a number of different methods for restoring early coloured films today, each of which nonetheless comes with its own inherent strengths and weaknesses.
The most obvious, in a way the most straightforward (though it still requires a great deal of skill and accuracy in order to be done successfully), and still the most common method today is that of copying the original coloured print ‘as is’ onto modern Eastman colour inter-negative film. From the developed inter-negative then a new colour positive print can be struck.
If set up and executed correctly, the colours in the new positive print can resemble very closely the colours in the original print but only as they survive today. Therefore, whatever fading, decomposition and/or other changes, which may have occurred to the colours down through the years, will also be copied along with them. Beyond the possibility to make very slight improvements to the saturation this method offers little in the way of any colour restoration. There are, meanwhile, other notable disadvantages, not least the use of modern colour film stock. Colour film is both expensive and has questionable archival permanence, as modern colour dyes are known to fade in time. [5]
It was largely as a result of these problems that Noël Desmet, starting in the 1960s, developed his own flashing method for restoring silent films, which had originally been coloured either by the process of tinting or toning (or both). With Desmet's method, the original colour print is first copied onto modern, panchromatic black and white inter-negative film, rather than colour film. [6] The colours are then applied later during production of the positive print.
For the reproduction of a print coloured by tinting only, the developed black and white inter-negative is first printed onto modern colour print stock in an initial printing pass. The same piece of film is then flashed with the appropriate coloured light (or a neutral light shone through a colour filter) in a second printing pass.
The result is effectively little more than a colour image on top of a black and white one but the illusion is quite convincing. The use of coloured lights or filters, meanwhile, allows one greater freedom in attempting to reproduce the colours as they might have originally looked.
For the reproduction of prints coloured by toning, the developed black and white inter-negative is exposed onto colour print film using a coloured light source rather than a neutral one. As the light passes more easily through the light parts of the negative image, the result will be colour in only the dark parts of the positive image, effectively simulating the original tone.
Combined tints and tones can be reproduced using this same process, to simulate the tone, but with the addition of a second printing pass to colour the light parts of the image, simulating the original tint. It is very important to balance the colours correctly during testing beforehand since, as the second pass covers the whole image, the two colours are apt to mix.
The main benefits of the Desmet method are in cost, as black and white negative film is still generally cheaper than colour film. In addition, the black and white inter-negative provides a greater archival record than colour film, since it is not subject to the same fading as the colour dyes used in modern colour inter-negative films.
However, the Desmet method is not without its drawbacks. Principle among these is that the technique cannot be employed for more selectively coloured prints, such as those coloured by the Pathécolor (later Pathéchrome) stencil process or the Handschiegl processes. These prints must still be copied directly onto modern colour inter-negative film or scanned to a digital format, manipulated digitally and then recorded back onto film.
The use of modern colour film for the positive print is another drawback. Modern colour film stock effectively produces the required colour range by the subtractive mix of cyan, magenta and yellow dyes. These dyes are incapable of reproducing the same levels of saturation and hue as some of the single colour dyes used to colour the film in the first place, particularly primary colours such as red and green. [7] Nonetheless, the Desmet method still offers a greater range of saturated colours than the colour inter-negative method.
It is still technically possible to reproduce these vintage colour effects by means of the original methods today. This is, of course, the most accurate method in terms of reproduction, though even then it cannot be said to be entirely accurate, as modern black-and-white print film, whilst very similar to the film used in the early years of cinema, will still exhibit different properties to the film stocks used then. It is also the most complex, time-consuming and expensive procedure. Moreover, many of the toxic dyes originally offered by manufacturers are no longer available today, on account of increased health and safety standards. Those available, meanwhile, can often only be purchased at great expense. As a result, only a select few film laboratories specialised in film restoration are capable of offering this facility today.
Another method worth mentioning, which has become increasingly common in recent years, is to transfer the original colour print to a high resolution digital format and manipulate the image in the digital domain before reconstituting it back on film. Without a doubt this method offers the widest freedom in terms of restoration, since many things are possible with digital that would not be possible by traditional photochemical means.
It is also, however, the most ethically questionable, since it involves the transfer to a different medium, which comes with its own unique properties and limitations, losing many of the inherent, film-like properties of the original along the way. It is also the least archivally sound, since the longevity of digital media formats has not yet been determined. Thus, while digital techniques in film restoration are undoubtedly on the rise, they are still far from becoming standard.
Film stock is an analog medium that is used for recording motion pictures or animation. It is recorded on by a movie camera, developed, edited, and projected onto a screen using a movie projector. It is a strip or sheet of transparent plastic film base coated on one side with a gelatin emulsion containing microscopically small light-sensitive silver halide crystals. The sizes and other characteristics of the crystals determine the sensitivity, contrast and resolution of the film. The emulsion will gradually darken if left exposed to light, but the process is too slow and incomplete to be of any practical use. Instead, a very short exposure to the image formed by a camera lens is used to produce only a very slight chemical change, proportional to the amount of light absorbed by each crystal. This creates an invisible latent image in the emulsion, which can be chemically developed into a visible photograph. In addition to visible light, all films are sensitive to X-rays and high-energy particles. Most are at least slightly sensitive to invisible ultraviolet (UV) light. Some special-purpose films are sensitive into the infrared (IR) region of the spectrum.
Screen printing is a printing technique where a mesh is used to transfer ink onto a substrate, except in areas made impermeable to the ink by a blocking stencil. A blade or squeegee is moved across the screen to fill the open mesh apertures with ink, and a reverse stroke then causes the screen to touch the substrate momentarily along a line of contact. This causes the ink to wet the substrate and be pulled out of the mesh apertures as the screen springs back after the blade has passed. One colour is printed at a time, so several screens can be used to produce a multi-coloured image or design.
Chroma key compositing, or chroma keying, is a visual-effects and post-production technique for compositing (layering) two images or video streams together based on colour hues. The technique has been used in many fields to remove a background from the subject of a photo or video – particularly the newscasting, motion picture, and video game industries. A colour range in the foreground footage is made transparent, allowing separately filmed background footage or a static image to be inserted into the scene. The chroma keying technique is commonly used in video production and post-production. This technique is also referred to as colour keying, colour-separation overlay, or by various terms for specific colour-related variants such as green screen or blue screen; chroma keying can be done with backgrounds of any colour that are uniform and distinct, but green and blue backgrounds are more commonly used because they differ most distinctly in hue from any human skin colour. No part of the subject being filmed or photographed may duplicate the colour used as the backing, or the part may be erroneously identified as part of the backing.
Photographic processing or photographic development is the chemical means by which photographic film or paper is treated after photographic exposure to produce a negative or positive image. Photographic processing transforms the latent image into a visible image, makes this permanent and renders it insensitive to light.
Photographic paper is a paper coated with a light-sensitive chemical formula, like photographic film, used for making photographic prints. When photographic paper is exposed to light, it captures a latent image that is then developed to form a visible image; with most papers the image density from exposure can be sufficient to not require further development, aside from fixing and clearing, though latent exposure is also usually present. The light-sensitive layer of the paper is called the emulsion. The most common chemistry was based on silver halide but other alternatives have also been used.
In photography, reversal film or slide film is a type of photographic film that produces a positive image on a transparent base. Instead of negatives and prints, reversal film is processed to produce transparencies or diapositives. Reversal film is produced in various sizes, from 35 mm to roll film to 8×10 inch sheet film.
Color photography is photography that uses media capable of capturing and reproducing colors. By contrast, black-and-white or gray-monochrome photography records only a single channel of luminance (brightness) and uses media capable only of showing shades of gray.
Photographic printing is the process of producing a final image on paper for viewing, using chemically sensitized paper. The paper is exposed to a photographic negative, a positive transparency , or a digital image file projected using an enlarger or digital exposure unit such as a LightJet or Minilab printer. Alternatively, the negative or transparency may be placed atop the paper and directly exposed, creating a contact print. Digital photographs are commonly printed on plain paper, for example by a color printer, but this is not considered "photographic printing".
Color printing or colour printing is the reproduction of an image or text in color. Any natural scene or color photograph can be optically and physiologically dissected into three primary colors, red, green and blue, roughly equal amounts of which give rise to the perception of white, and different proportions of which give rise to the visual sensations of all other colors. The additive combination of any two primary colors in roughly equal proportion gives rise to the perception of a secondary color. For example, red and green yields yellow, red and blue yields magenta, and green and blue yield cyan. Only yellow is counter-intuitive. Yellow, cyan and magenta are merely the "basic" secondary colors: unequal mixtures of the primaries give rise to perception of many other colors all of which may be co
In photography, toning is a method of changing the color of black-and-white photographs. In analog photography, it is a chemical process carried out on metal salt-based prints, such as silver prints, iron-based prints, or platinum or palladium prints. This darkroom process cannot be performed with a color photograph. The effects of this process can be emulated with software in digital photography. Sepia is considered a form of black-and-white or monochrome photography.
Hand-colouring refers to any method of manually adding colour to a monochrome photograph, generally either to heighten the realism of the image or for artistic purposes. Hand-colouring is also known as hand painting or overpainting.
Textile printing is the process of applying color to fabric in definite patterns or designs. In properly printed fabrics the colour is bonded with the fibre, so as to resist washing and friction. Textile printing is related to dyeing but in dyeing properly the whole fabric is uniformly covered with one colour, whereas in printing one or more colours are applied to it in certain parts only, and in sharply defined patterns.
Film tinting is the process of adding color to black-and-white film, usually by means of soaking the film in dye and staining the film emulsion. The effect is that all of the light shining through is filtered, so that what would be white light becomes light of some color.
In cinematography, bipacking, or a bipack, is the process of loading two reels of film into a camera, so that they both pass through the camera gate together. It was used both for in-camera effects and as an early subtractive colour process.
Color motion picture film refers both to unexposed color photographic film in a format suitable for use in a motion picture camera, and to finished motion picture film, ready for use in a projector, which bears images in color.
Dufaycolor is an early British additive colour photographic film process, introduced for motion picture use in 1932 and for still photography in 1935. It was derived from Louis Dufay's Dioptichrome plates, a glass-based product for colour still photography, introduced in France in 1909. Both Dioptichrome and Dufaycolor worked on the same principles as the Autochrome process, but achieved their results using a layer of tiny colour filter elements arrayed in a regular geometric pattern, unlike Autochrome's random array of coloured starch grains. The manufacture of Dufaycolor film ended in the late 1950s.
Dye transfer is a continuous-tone color photographic printing process. It was used to print Technicolor films, as well as to produce paper colour prints used in advertising, or large transparencies for display.
Chromoxylography was a colour woodblock printing process, popular from the mid-19th to the early-20th century, commonly used to produce illustrations in children's books, serial pulp magazines, and cover art for yellow-back and penny dreadfuls. The art of relief engraving and chromoxylography was perfected by engravers and printers in the 19th century, most notably in Victorian London by engraver and printer Edmund Evans who was particularly good with the process, producing a wide range of hues and tones through color mixing. Chromoxylography was a complicated technique, requiring intricate engraving and printing for the best results. Less expensive products, such as covers for pulp magazines, had to be produced with few colours, often only two or three, whereas more intricate and expensive books and reproductions of paintings used as many as a dozen or more colors. For each colour used, a separate woodblock had to be carved of the image being reproduced.
Technicolor is a series of color motion picture processes, the first version dating back to 1916, and followed by improved versions over several decades.
Élisabeth Thuillier and Marie-Berthe Thuillier were a mother-daughter team of French colourists. They ran a workshop in Paris, where their employees hand-coloured early films and photographic slides using their plans and colour choices. They are remembered especially for the work they did for the director Georges Méliès.