Photographic paper 204410 216963614 2008-06-04T00:29:00Z Dicklyon 869314 copyedit; repair malformed punctuation of lazy anon In [[photography]], '''photographic paper''' is paper coated with [[light]]-sensitive chemicals, used for making [[photographic print]]s. (Photographic paper is not to be confused with so-called ''photo papers:'' specially [[coated paper]]s for use in inkjet or laser [[computer printer|printers]] to make [[digital printing|digital prints]].) Photographic paper may be exposed to light in a controlled manner either by placing a [[Negative (photography)|negative]] in contact with the paper directly (''contact printing'') or by using an [[photographic enlarger|enlarger]] (''enlarging'') in order to create a [[Latent image|''latent'' image]]. It may also be used directly to produce a negative image in some types of cameras, including [[pinhole camera]]s. Photographic papers are subsequently [[Film developing|developed]] using wet chemicals to create a ''visible'' image. ==History== The effect of light in darkening a prepared paper was discoverd by M. Charles in 1800 or by [[Thomas Wedgwood (1771-1805)|Thomas Wedgwood]] in 1802.<ref>{{cite book | title = The Edinburgh Review | author = Sydney Smith, Francis Jeffrey Jeffrey, Macvey Napier, William Empson, George Cornewall | publisher = London: Longman, Orme, Brown, Green, and Longmans; and Edinburgh: Adam and Charles Black | year = 1843 | url = http://books.google.com/books?id=9-sEAAAAQAAJ&pg=PA335&dq=talbot+%22photographic+paper%22&lr=&as_brr=1&ei=vM5BSOy2C4_aigHHy7iIBQ#PPA313,M1 }}</ref> Photographic papers have been used since the beginning of all [[negative (photography)|negative]]–positive [[Photography|photographic processes]] as developed and popularised by [[Fox Talbot|William Fox Talbot]] ([[Great Britain]]/[[1841]]-[[calotype]]). Traditional photographic papers are still sold commercially today. ==Types of photographic papers== [[Image:Photopapers 1.jpg|right|thumb|250px|]] I. ''Papers used for '''negative-positive''' photographic processes.'' (e.g. the [[gelatin-silver process]]). This is the most common form of analogue photography. II. ''Papers used for '''positive-positive''' photographic processes'' in which the "film" is the same as the final image (e.g. the [[Polaroid Corporation|Polaroid]] process). III. ''Papers used for '''positive-positive''' film-to-paper photographic processes'' in which a positive image is enlarged and copied onto a photographic paper (e.g. the [[Ilfochrome|Cibachrome]] process). ===I. Papers used for negative-positive processes=== ====Basic structure==== Basic photographic paper ('''1''') consists of at least two layers: A) Photographic emulsion Even though different photographic processes use different chemical mixtures to record the exposure of the paper(s) to light, all photographic papers use a ''sensitised [[metal]]'' as a reactant to the exposure of [[light]], [[Suspension (chemistry)|suspended]] in [[gelatin]] which is called the ''photographic emulsion''. The metal is usually silver, but alternative processes exist that use [[iron]] ([[cyanotype]]), [[platinum]] or [[palladium]] ([[platinotype]]), [[uranium]] (uranotype), or other metals. Photographic emulsion can be sensitised for any wavelengths of light. In traditional black-and-white photographic papers, the photographic emulsion is sensitised for green/blue light which allows processing under red/orange [[safelight]]ing. B) Paper base Photographic papers are made up mainly of a paper base which can have a number of different surface characteristics. Classical surfaces are ''glossy, stipple/lustre, and matte''. Specialised papers with unusual surface characteristics such as watercolour paper are also produced commercially (e.g. Kentmere's ''Art Document''). If the printer produces his/her own photographic paper, any paper surface that permits the application of photographic emulsion is available. The thickness of the paper base is specified by its "weight" (''single'', ''double'' or ''triple'' weights are available). ====Traditional black-and-white papers==== =====Fibre-based papers (FB)===== Fibre-based (FB) photographic papers ('''2''') consist of a paper base covered with a [[Barium hydroxide|baryta]] layer that whitens the paper and supports the photographic emulsion coated on top of the baryta layer. Until rather recently, baryta supports contained tints in the barium sulfate which added various tones or colors to the final print. This practice has been discontinued. Supercoated fibre-based photographic papers ('''3''') include a clear gelatin layer made up of hardened gelatin which protects the photographic emulsion underneath against scratches etc. especially during processing. Photographic emulsion is particularly vulnerable when it expands after contact with [[water]]. Fibre-based papers are mainly used for exclusively high-quality prints and to maximise archival stability. =====Resin-coated papers (RC)===== The paper base of resin-coated photographic papers ('''4''') is sealed against the chemicals used for processing the paper by two polyethylene layers. Since no chemicals and no water is soaked into the paper base the time needed for processing, washing and drying of the paper is significantly shorter than the time needed for fibre-based papers. In a traditional black-and-white [[darkroom]], an RC print can be finished and dried within 10-15 min, whereas the washing time of an FB print alone may take up to 60 min. Most resin-coated photographic papers are also supercoated. ====Colour papers==== All colour photographic materials available today are coated on either RC (resin coated) paper or on solid polyester. The photographic emulsion used for colour photographic materials consists of three colour emulsion layers ([[cyan]], [[yellow]] and [[magenta]]) along with other supporting layers. The colour layers are sensitised to their corresponding colours. Although it is commonly believed that the layers in negative papers are shielded against the intrusion of light of a different wavelength than the actual layer by colour filters which dissolve during processing, this is not so. The color layers in negative papers are actually produced to have speeds which increase from cyan (red sensitive) to magenta (green sensitive) to yellow (blue sensitive), and thus when filtered during printing, the blue light is "normalized" so that there is no crosstalk. Therefore the yellow (blue sensitive) layer is nearly ISO 100 while the cyan (red) layer is about ISO 25. After adding enough yellow filtration to make a neutral, the blue sensitiviety of the slow cyan layer is "lost". In negative-positive print systems, the blue sensitive layer is on the bottom, and the cyan layer is on the top. This is the reverse of the usual layer order in color films. The emulsion layers include the colour dyes (Ilfochrome) or "colour couplers" which react with colour developers to produce colour dyes (Type C prints). It should be noted that "Type C" is a trademark of Eastman Kodak which has been applied generically to other negative-positive print system. Common usage has made this trademark universal. More accurately, these are Chromogenic negative-positive prints. The so called Type R prints which are no longer made, were also misusage of a Kodak trademark. These products were mpre properly called pos-pos chromogenic prints. ==Emulsion characteristics== The emulsion itself is made up from light sensitive silver halide crystals suspended in gelatin. Photographic papers are distinguished by the characteristics inherent in their different photographic emulsions. Black-and-white photographic paper is available in different '''grades''' which are usually numbered 0 to 5, with 0 being the ''softest'', or least contrastful paper grade and 5 being the ''hardest'', or most contrastful paper grade. Photographic emulsions are also produced in a '''variable contrast''' type which permits the selection of any grade between 00 and 5. Variable contrast photographic paper is actually coated with a mixture of two types of emulsion, one of which is very low in contrast (0 or 00) and one of which is very high in contrast (5). The low contrast layer is activated by green light, the high contrast layer by blue light. The use of filters activates each layer in different proportions, thereby creating all contrast grades from 0 (or 00) to 5. The trade names of variable contrast photographic papers typically include a reference to contrast variability, such as ''Variocontrast'', ''Multigrade'', ''Varycon'' or similar. Some companies simply designate variable contrast type papers with the words ''variable'' or ''polycontrast''. The contrast of photographic papers can also be controlled during processing or by the use of bleaches or [[Photographic print toning|toners]]. ==Archival stability== The actual life span of any given photographic paper will vary with the environment the paper is stored within and how well the paper was processed. Fibre-based black-and-white photographic paper that has been processed ''archivally'' (i.e. has been fixed and watered properly) is considered archivally "stable" and should last at least 70 years (the life-span of a typical resin-coated print is usually around 30-40 years.) Some special processes include photographic emulsions that are, if processed correctly, inherently more stable than the paper base they are printed upon, such as [[Platinotype|platinum prints]]. ==See also== * [[Film base]] * [[Photographic print toning]] * [[Inkjet paper]] * [[Photographic printing]] * [[Cutting stock problem]] ==References== <references/> ==External links== ;Manufacturers of B/W Photographic Papers * [http://www.ilfordphoto.com/ Ilford Photo, UK ] * [http://www.kentmere.co.uk/main/kentmere.htm Kentmere, UK] * [http://www.fotokemika.hr/ Fotokemika, Croatia] * [http://www.fuji.jp Fuji, Japan] * [http://www.foma.cz Foma, Czech Republic] * [http://www.slavich.ru Slavich, Russia] [[Category:Coated paper]] [[Category:Photography equipment]] [[de:Fotopapier]] [[es:Papel fotográfico]] [[ja:印画紙]] [[pl:Papier fotograficzny]] [[fi:Valokuvapaperi]] [[zh:相紙]]