The double Gauss lens is a compound lens used mostly in

camera lens A camera lens (also known as photographic lens or photographic objective) is an optical lens or assembly of lenses used in conjunction with a camera body and mechanism to make images of objects either on photographic film or on other media cap ...

es that reduces optical aberrations over a large

focal plane In Gaussian optics, the cardinal points consist of three pairs of points located on the optical axis of a rotationally symmetric, focal, optical system. These are the '' focal points'', the principal points, and the nodal points. For ''ideal'' ...

Design

The double Gauss lens consists of two back-to-back Gauss lenses (a design with a positive meniscus lens on the object side and a negative meniscus lens on the image side) making two positive meniscus lenses on the outside with two negative meniscus lenses inside them. The symmetry of the system and the splitting of the optical power into many elements reduces the optical aberrations within the system. There are many variations of the design. Sometimes extra lens elements are added. The basic lens type is one of the most developed and used photographic lenses. The design forms the basis for many camera lenses in use today, especially the wide-aperture standard lenses used on 35 mm and other small-format cameras. It can offer good results up to with a wide

field of view The field of view (FoV) is the extent of the observable world that is seen at any given moment. In the case of optical instruments or sensors it is a solid angle through which a detector is sensitive to electromagnetic radiation. Human ...

, and has sometimes been made at 1.0. Extra wide aperture f/1.4 Double Gauss lenses usually have seven elements for extra aberration control. Modern super wide aperture models can have eight or more elements. Moderate aperture f/2.8 versions can be simplified to five elements. The Double Gauss was likely the most intensively studied lens formula of the twentieth century, producing dozens of major variants, scores of minor variants, hundreds of marketed lenses and tens of millions of unit sales. It had almost no flaws, except for a bit of oblique spherical aberration, which could lower peripheral contrast. Double Gauss/Planar tweaks were the standard wide aperture, normal and near-normal prime lens for sixty years.

History

The original two element ''Gauss'' was a telescope objective lens consisting of closely spaced positive and negative menisci, invented in 1817 by

Carl Friedrich Gauss Johann Carl Friedrich Gauss (; german: Gauß ; la, Carolus Fridericus Gauss; 30 April 177723 February 1855) was a German mathematician and physicist who made significant contributions to many fields in mathematics and science. Sometimes refer ...

as an improvement to the Fraunhofer Achromatic telescope objective lens by adding a meniscus lens to its single

convex Convex or convexity may refer to: Science and technology * Convex lens, in optics Mathematics * Convex set, containing the whole line segment that joins points ** Convex polygon, a polygon which encloses a convex set of points ** Convex polytop ...

and

concave Concave or concavity may refer to: Science and technology * Concave lens * Concave mirror Mathematics * Concave function, the negative of a convex function * Concave polygon, a polygon which is not convex * Concave set In geometry, a subset o ...

lens design.

Alvan Clark Alvan Clark (March 8, 1804 – August 19, 1887), born in Ashfield, Massachusetts, the descendant of a Cape Cod whaling family of English ancestry, was an American astronomer and telescope maker. Biography He started as a portrait painter and engra ...

and Bausch & Lomb further refined the design in 1888 by taking two of these lenses and placing them back to back making a "double Gauss" with indifferent photographic results. Current double Gauss lenses can be traced back to an 1895 improved design, when Paul Rudolph of Carl Zeiss Jena thickened the interior negative menisci and converted to them to cemented doublets of two elements of equal refraction but differing dispersion in the ''

Zeiss Planar The Zeiss Planar is a photographic lens designed by Paul Rudolph at Carl Zeiss in 1896. Rudolph's original was a six-element symmetrical design. While very sharp, early versions of the lens suffered from flare due to its many air-to-glass su ...

'' of 1896 to correct for

chromatic aberration In optics, chromatic aberration (CA), also called chromatic distortion and spherochromatism, is a failure of a lens to focus all colors to the same point. It is caused by dispersion: the refractive index of the lens elements varies with the w ...

. It was the original six element symmetric f/4.5 Double Gauss lens.

Horace William Lee Horace William Lee was an optical designer responsible for developing multiple influential lens designs, including the ''Opic'' (1920), an asymmetric large-aperture double Gauss lens, and the inverted telephoto wide-angle lens (1930), while workin ...

added a slight asymmetry to the Planar in 1920, and created the ''Taylor, Taylor & Hobson Series 0'' (also called the ''Lee Opic'', UK) f/2 lens. It was commercially unsuccessful, but its asymmetry is the foundation of the modern Double Gauss, including the Zeiss Biotar. Later the design was developed with additional glasses to give high-performance lenses of wide aperture. The main development was due to

Taylor Hobson Taylor Hobson is an English company founded in 1886 and located in Leicester, England. Originally a manufacturer of still camera and cine lenses, the company now manufactures precision metrology instruments—in particular, profilometers for the ...

in the 1920s, resulting in the f/2.0

Opic The Overseas Private Investment Corporation (OPIC) was the United States Government's Development finance institution until it merged with the Development Credit Authority (DCA) of the United States Agency for International Development (USAID ...

and later the

Speed Panchro In everyday use and in kinematics, the speed (commonly referred to as ''v'') of an object is the magnitude of the change of its position over time or the magnitude of the change of its position per unit of time; it is thus a scalar quantity. ...

designs, which were licensed to various other manufacturers. In 1927, Lee modified the Opic design and increase the maximum aperture up to f/1.4, that is the ''Ultra Panchro'' lens. Further improvement was done by Lee in 1930, the ''Super Speed Panchro''. It was a f/1.5 fast design with 7 glasses in 5 groups, which soon became new popular of fast speed lens type and was cited by many lens manufacturers until the 1960s. The ''Biotar'' is another competitor of British Panchro series. In the same year of 1927, Zeiss designed ''Biotar 50mm f/1.4'' for cinematography. Its still photography version, ''Zeiss Biotar 58mm f/2'' (Germany) appeared on the Ihagee Kine Exakta (1936, Germany), the first widely available

35mm 35 mm may refer to: * 135 film, a type of still photography format commonly referred to as 35 mm film * 35 mm movie film 35 mm film is a film gauge used in filmmaking, and the film standard. In motion pictures that record on fi ...

single-lens reflex camera A single-lens reflex camera (SLR) is a camera that typically uses a mirror and prism system (hence "reflex" from the mirror's reflection) that permits the photographer to view through the lens and see exactly what will be captured. With twin l ...

s, in 1939. It was also the standard lens on the VEB Zeiss Ikon (Dresden) Contax S (1949, East Germany), the first pentaprism eye-level viewing 35mm SLR. The Biotar, originally designed in 1927, had a six element asymmetric Double Gauss formula. Post-World War II Zeiss (Oberkochen, West Germany) no longer uses the Biotar name; instead lumping any Double Gauss variant under the Planar name. The Soviet 2/58mm Helios-44 lens of the Zenit camera was the most common version/clone of the Biotar, making an excellent value-for-money accessory today for any digital camera with APS-C and Full-Frame sized sensor, the former giving an equivalent focal length of approximately 93mm to 116mm depending on the crop factor of the sensor utilized. An appropriate M42 adaptor is required for this particular lens. Several contemporaneous competing, but less famous lenses, were similar to the Biotar, such as Albrecht Tronnier's ''Schneider Xenon'' (1925, Germany). For example, three asymmetric Double Gauss lenses were produced in 1934 for Ihagee VP Exakta (1933, Germany) the type 127 roll film SLR camera: ''8 cm f/2'' versions of both the ''Biotar'' and ''Xenon'', as well as the ''Dallmeyer Super Six 3 inch f/1.9'' (UK). Early Double Gauss permutations for 35mm cameras included the ''Kodak Ektar 45mm f/2'' on the Kodak Bantam Special (1936, USA), the ''Kodak Ektar 50mm f/1.9'' for the Kodak Ektra (1941, USA), the ''Voigtländer Ultron 50mm f/2'' on the Voigtländer Vitessa (1951, West Germany) and the ''Leitz Summicron 50mm f/2'' for the Leica M3 (1953, West Germany). A notable, but largely-forgotten, use of the Double-Gauss formula was in the ''Canon 28mm f/3.5'' (1951, Japan) in M39 mount for Rangefinder cameras. By enlarging the rear group significantly (compared to a Double-Gauss type of more traditional focal length), the field of view was increased while keeping the aperture relatively large- making it, for a time, the fastest 28mm lens available for 35mm cameras by a large margin. In 1966, ''Asahi Pentax'' combined the ''Super Speed Panchro'' type and the ''Xenon'' type, invented the 7 glass- 6 grouped ''Super Takumar 50mm f/1.4''(v2). During the 1960s to early 80s every optical house had Super Panchro type, then Super Takumar type Double Gauss normal lenses jockeying for sales. For example, compare the ''Tokyo Optical RE Auto-Topcor 5.8 cm f/1.4'' for the Topcon RE Super/Super D (1963), ''Olympus G. Zuiko Auto-S 40mm f/1.4'' for the Olympus Pen F (lens 1964, camera 1963), ''Yashica Auto Yashinon DX 50mm f/1.4'' for the Yashica TL Super (1967), ''Canon FL 50mm f/1.4'' (v2) for the Canon FT (lens 1968, camera 1966), ''Asahi Optical Super Takumar 50mm f/1.4''(v2) for the Pentax Spotmatic (lens 1968, camera 1964), ''Fuji Fujinon 50mm f/1.4'' for the Fujica ST701 (1971), ''Minolta MC Rokkor-PG 50mm f/1.4'' for the Minolta XK/XM/X-1 (1973), ''Zeiss Planar HFT 50mm f/1.4'' for the Rolleiflex SL350 (1974), ''Konica Hexanon AR 50mm f/1.4'' for the Konica Autoreflex T3 (lens 1974, camera 1973) and ''Nippon Kokagu Nikkor (K) 50mm f/1.4 (New)'' for the Nikon F2 (lens 1976, camera 1971); all from Japan except Zeiss, West Germany.

Zoom lens A zoom lens is a mechanical assembly of lens elements for which the focal length (and thus angle of view) can be varied, as opposed to a fixed-focal-length (FFL) lens (see prime lens). A true zoom lens, also called a parfocal lens, is one t ...

es dominated the 1980s and 90s, and so, there were few new Double Gauss normal lenses. Zooms continue to dominate the digital era, but many new prestige low production Double Gauss lenses have appeared. Compare the ''Canon EF 50mm f/1.2L USM'' (2007, Japan), ''Nikon AF-S Nikkor 50mm f/1.4G'' (2008, Japan/China), ''Sigma EX DG HSM 50mm f/1.4'' (2008, Japan), (''Cosina'') ''Voigtländer Nokton 50mm f/1.1'' (2009, Japan), ''Leica Noctilux-M 50mm f/0.95 ASPH'' (2009, Germany) with their antecedents, or 'SLR Magic HyperPrime 50mm CINE T0.95' (2012, Hong Kong, China). Image:DoubleGauss2text.svg, Double Gauss lens designs 1936–1964 Image:DoubleGauss3text.svg, Double Gauss lens designs 1964–1977 Image:DoubleGauss4text.svg, Double Gauss lens designs 1978–2010 The design is presently used in inexpensive-but-high-quality fast lenses such as the Sony FE 50mm 1.8, the Canon EF 50mm 1.8 and the Nikon 50 mm 1.8D AF Nikkor. It is also used as the basis for faster designs, with elements added, such as a seventh element as in both Canon and Nikon's 50 mm 1.4 offerings or an aspherical seventh element in Canon's 50 mm 1.2. The design appears in other applications where a simple fast normal lens is required (≈53° diagonal) such as in projectors.

References

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Notes

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External links

A brief description of the double Gauss design
Photographic lenses Photographic lens designs