Carl Zeiss AG
We make it visible
|Dr. Michael Kaschke, CEO and President|
|Products||Precision binoculars, spotting scopes, telescopes, night vision equipment, laser-guided rangefinders, riflescopes, planetarium projectors and other optical equipment.|
|Revenue||€ 4,240 million (2010/11)|
|€ 668 million (2010/11)|
Number of employees
|24,192 (30 September 2011)|
Carl Zeiss (German pronunciation: [ˌkaʁl ˈtsaɪs]) is a German manufacturer of optical systems, industrial measurements and medical devices, founded in Jena, Germany in 1846 by optician Carl Zeiss. Together with Ernst Abbe (joined 1866) and Otto Schott (joined 1884) they built a base for modern optics and manufacturing. There are currently two parts of the company, Carl Zeiss AG located in Oberkochen with important subsidiaries in Aalen, Göttingen and Munich, and Carl Zeiss GmbH located in Jena.
Carl Zeiss AG is the premier company of the Zeiss Gruppe, one of the two large divisions of the Carl-Zeiss-Stiftung. The Zeiss Gruppe is located in Heidenheim and Jena. Also controlled by the Carl-Zeiss-Stiftung are the glass manufacturers Schott AG and Jenaer Glas, located in Mainz and Jena respectively. Carl Zeiss is one of the oldest existing optics manufacturers in the world.
Carl Zeiss opened an optics workshop in Jena in 1846. By 1847 he was making microscopes full-time. By 1861 Zeiss was considered to be among the best scientific instrument makers in Germany with about 20 people working under him with his business still growing. By 1866 the Zeiss workshop sold their 1,000th microscope. In 1872 physicist Ernst Abbe joined Zeiss and along with Otto Schott designed greatly improved lenses for the optical instruments they were producing. After Carl Zeiss's death in 1888, the business was incorporated as the Carl-Zeiss-Stiftung in 1889.
By World War I, Zeiss was the world's largest location of camera production. Zeiss Ikon represented a significant part of the production along with dozens of other brands and factories, and also had major works at Dresden.
In 1928 Hensoldt AG was acquired by Carl Zeiss and has produced the Zeiss binoculars and riflescopes since 1964, occasionally resulting in twin products being offered under both the Hensoldt and Zeiss brand names. The Hensoldt System Technology division (resulting from a merger of the military optics operations of Leica and Hensoldt) was continued by Zeiss under the Hensoldt name until 2006.
As part of Nazi Germany Zwangsarbeiter program, Zeiss used forced labour during the Second World War. The destruction of the war caused many companies to divide into smaller subcompanies and others to merge. There was great respect for the engineering innovation that came out of Dresden—before the war the world's first 35 mm single-lens reflex camera, the Kine Exakta, and the first miniature camera with good picture quality were developed there.
At the end of the war Jena was occupied by the US Army. When Jena and Dresden were incorporated into the Soviet occupation zone, later East Germany, some parts of Zeiss Jena were relocated by the US army to the Contessa manufacturing facility in Stuttgart, West Germany, while the remainder of Zeiss Jena was reestablished by the (Eastern) German Democratic Republic as Kombinat VEB Zeiss Jena. As part of the World War II reparations, the Soviet army took most of the existing Zeiss factories and tooling back to the Soviet Union as the Kiev camera works.
The western business was restarted in Oberkochen (in southwestern Germany) as Opton Optische Werke Oberkochen GmbH in 1946, which became Zeiss-Opton Optische Werke Oberkochen GmbH in 1947, but was soon renamed to Carl Zeiss. West German Zeiss products were labelled Opton for sale in the Eastern bloc, while East German Zeiss products were labelled "Zeiss Jena" or simply "Jena" for sale in Western countries.
In 1973, the Western Carl Zeiss AG entered into a licensing agreement with the Japanese camera company Yashica to produce a series of high-quality 35 mm film cameras and lenses bearing the Contax and Zeiss brand names. This collaboration continued under Yashica's successor, Kyocera, until the latter ceased all camera production in 2005. Zeiss later produced lenses for the space industry and, more recently, has again produced high-quality 35 mm camera lenses. The eastern Zeiss Jena was also well known for producing high-quality products
Following German reunification, VEB Zeiss Jena—reckoned as one of the few East German firms that was even potentially able to compete on a global basis—became Zeiss Jena GmbH, which became Jenoptik Carl Zeiss Jena GmbH in 1990. In 1991, Jenoptik Carl Zeiss Jena was split in two, with Carl Zeiss AG (Oberkochen) taking over the company's divisions for microscopy and other precision optics (effectively reuniting the pre-war Carl Zeiss enterprise) and moving its microscopy and planetarium divisions back to Jena. Jenoptik GmbH was split off as a specialty company in the areas of photonics, optoelectronics, and mechatronics.
The companies of the Zeiss Gruppe in and around Dresden have branched into new technologies: screens and products for the automotive industry, for example.
Today, there are arguably three companies with primarily Zeiss Ikon heritage: Zeiss Germany, the Finnish/Swedish Ikon (which bought the West German Zeiss Ikon AG), and the independent eastern Zeiss Ikon.
The Zeiss company was responsible for many innovations in optical design and engineering. Early on, Carl Zeiss realised that he needed a competent scientist so as to take the firm beyond just being another optical workshop. In 1866, the service of Dr Ernst Abbe was enlisted. From then on novel products appeared in rapid succession which brought the Zeiss company to the forefront of optical technology.
Abbe was instrumental in the development of the famous Jena optical glass. When he was trying to eliminate astigmatism from microscopes, he realised that the range of optical glasses available was insufficient. After some calculations, he realised that performance of optical instruments would dramatically improve, if optical glasses of appropriate properties were available. His challenge to glass manufacturers was finally answered by Dr Otto Schott, who established the famous glassworks at Jena from which new types of optical glass began to appear from 1888 to be employed by Zeiss and other makers.
The new Jena optical glass also opened up the possibility of increased performance of photographic lenses. The first use of Jena glass in a photographic lens was by Voigtländer, but as the lens was an old design its performance was not greatly improved. Subsequently the new glasses would demonstrate their value in correcting astigmatism, and in the production of apochromatic lenses. Abbe started the design of a photographic lens of symmetrical design with five elements, but went no further.
Zeiss' domination of photographic lens innovation was due to Dr Paul Rudolph. In 1890, Rudolph designed an asymmetrical lens with a cemented group at each side of the diaphragm, appropriately named "Anastigmat". This lens was made in three series: Series III, IV and V, with maximum apertures of f/7.2, f/12.5, and f/18 respectively. In 1891, Series I, II and IIIa appeared with respective maximum apertures of f/4.5, f/6.3, and f/9 and in 1893 came Series IIa of f/8 maximum aperture. These lenses are now better known by the trademark "Protar" which was first used in 1900.
At the time, single combination lenses, which occupy one side of the diaphragm only, were still popular. Rudolph designed one with three cemented elements in 1893, with the option of fitting two of them together in a lens barrel as a compound lens, but it was found to be the same as the Dagor by C.P. Goerz, designed by Emil von Hoegh. Rudolph then came up with a single combination with four cemented elements, which can be considered as having all the elements of the Protar stuck together in one piece. Marketed in 1894, it was called the Protarlinse Series VII, the most highly corrected single combination lens with maximum apertures between f/11 and f/12.5, depending on its focal length.
But the important thing about this Protarlinse is that two of these lens units can be mounted in the same lens barrel to form a compound lens of even greater performance and larger aperture, between f/6.3 and f/7.7. In this configuration it was called the Double Protar Series VIIa. An immense range of focal lengths can thus be obtained by the various combination of Protarlinse units.
Rudolph also investigated the Double-Gauss concept of a symmetrical design with thin positive meniscii enclosing negative elements. The result was the Planar Series Ia of 1896, with maximum apertures up to f/3.5, one of the fastest lenses of its time. Whilst it was very sharp, it suffered from coma which limited its popularity. However, further developments of this configuration made it the design of choice for high-speed lenses of standard coverage.
Probably inspired by the Stigmatic lenses designed by Hugh Aldis for Dallmeyer of London, Rudolph designed a new asymmetrical lens with four thin elements, the Unar Series Ib, with apertures up to f/4.5. Due to its high speed it was used extensively on hand cameras.
The most important Zeiss lens by Rudolph was the Tessar, first sold in 1902 in its Series IIb f/6.3 form. It can be said as a combination of the front half of the Unar with the rear half of the Protar. This proved to be a most valuable and flexible design, with tremendous development potential. Its maximum aperture was increased to f/4.7 in 1917, and reached f/2.7 in 1930. It is probable that every lens manufacturer has produced lenses of the Tessar configurations.
Rudolph left Zeiss after the First World War, but many other competent designers such as Merté, Wandersleb, etc. kept the firm at the leading edge of photographic lens innovations. One of the most significant designer was the ex-Ernemann man Dr Ludwig Bertele, famed for his Ernostar high-speed lens.
With the advent of the Contax by Zeiss-Ikon, the first serious challenge to the Leica in the field of professional 35 mm cameras, both Zeiss-Ikon and Carl Zeiss decided to beat the Leica in every possible way. Bertele's Sonnar series of lenses designed for the Contax were the match in every respect for the Leica for at least two decades. Other lenses for the Contax included the Biotar, Biogon, Orthometar, and various Tessars and Triotars.
The last important Zeiss innovation before the Second World War was the technique of applying anti-reflective coating to lens surfaces invented by Olexander Smakula in 1935. A lens so treated was marked with a red "T", short for "Transparent". The technique of applying multiple layers of coating was developed from this basis after the war, and known as "T✻" (T-star).
After the partitioning of Germany, a new Carl Zeiss optical company was established in Oberkochen, while the original Zeiss firm in Jena continued to operate. At first both firms produced very similar lines of products, and extensively cooperated in product-sharing, but they drifted apart as time progressed. Jena's new direction was to concentrate on developing lenses for 35 mm single-lens reflex cameras, and many achievements were made, especially in ultra-wide angle designs. In addition to that, Oberkochen also worked on designing lenses for the 35 mm single-lens reflex camera Contarex, for the medium format camera Hasselblad, for large format cameras like the Linhof Technika, interchangeable front element lenses such as for the 35 mm single-lens reflex Contaflex and other types of cameras.
Since the beginning of Zeiss as a photographic lens manufacturer, it has had a licensing programme which allows other manufacturers to produce its lenses. Over the years its licensees included Voigtländer, Bausch & Lomb, Ross, Koristka, Krauss, Kodak. etc. In the 1970s, the western operation of Zeiss-Ikon got together with Yashica to produce the new Contax cameras, and many of the Zeiss lenses for this camera, among others, were produced by Yashica's optical arm, Tomioka. As Yashica's owner Kyocera ended camera production in 2006, and Yashica lenses were then made by Cosina, who also manufactured most of the new Zeiss designs for the new Zeiss Ikon coupled rangefinder camera. Another licensee active today is Sony who uses the Zeiss name on lenses on its video and digital still cameras.
Zeiss has licensed its name and/or technology to various other companies, including Hasselblad, Rollei, Yashica, Sony, Logitech, and Alpa. The nature of the collaboration varies, from co-branding optics designed by another firm (e.g., Sony) to complete optical design and manufacturing (e.g., Hasselblad).
Zeiss Ikon cameras
Zeiss Ikon is the primary brand name for cameras made by Carl Zeiss. Cameras bearing this name have included the Zeiss Ikon Ikoflex twin-lens reflex and Zeiss Ikon Contaflex single-lens reflex cameras, the Zeiss Ikon Nettar medium-format folding camera, the Zeiss Ikon Contina 35mm folding camera, and two distinct families of rangefinder cameras which are both called simply "Zeiss Ikon." The most recent "Zeiss Ikon" rangefinder camera was an M mount camera with automatic exposure, introduced by Zeiss in 2004, manufactured in Japan by Cosina, and now discontinued.
Carl Zeiss AG has long been renowned for its motion picture lenses. Zeiss manufactures prime, and zoom lenses for 35mm, 16mm, and 65mm film production. They also make lenses for digital cinema, and high definition video. Zeiss is mainly known in the trade for their association with the German camera manufacturer Arri for whom they currently produce lenses.
Current models of Zeiss cinema lenses are:
- Master Prime T✻XP Distagon 14 mm T1.3
- Master Prime T✻XP Distagon 16 mm T1.3
- Master Prime T✻XP Distagon 18 mm T1.3
- Master Prime T✻XP Distagon 21 mm T1.3
- Master Prime T✻XP Distagon 25 mm T1.3
- Master Prime T✻XP Distagon 27 mm T1.3
- Master Prime T✻XP Distagon 32 mm T1.3
- Master Prime T✻XP Distagon 35 mm T1.3
- Master Prime T✻XP Distagon 40 mm T1.3
- Master Prime T✻XP Planar 50 mm T1.3
- Master Prime T✻XP Planar 65 mm T1.3
- Master Prime T✻XP Sonnar 75 mm T1.3
- Master Prime T✻XP Sonnar 100 mm T1.3
- Master Prime T✻XP Sonnar 150 mm T1.3
- Master Zoom T✻XP 16.5–110 mm T2.6
- Master Macro T✻XP Makro-Planar 100 mm T2.0/T4.3
- Leightweight Zoom LWZ.2 T✻XP Vario-Sonnar 15.5–45 mm T2.6
- Ultra Prime 8R T✻ Distagon 8 mm T2.8
- Ultra Prime T✻ Distagon 10 mm T2.1
- Ultra Prime T✻ Distagon 12 mm T1.9
- Ultra Prime T✻ Distagon 14 mm T1.9
- Ultra Prime T✻ Distagon 16 mm T1.9
- Ultra Prime T✻ Distagon 20 mm T1.9
- Ultra Prime T✻ Distagon 24 mm T1.9
- Ultra Prime T✻ Distagon 28 mm T1.9
- Ultra Prime T✻ Distagon 32 mm T1.9
- Ultra Prime T✻ Distagon 40 mm T1.9
- Ultra Prime T✻ Planar 50 mm T1.9
- Ultra Prime T✻ Planar 65 mm T1.9
- Ultra Prime T✻ Planar 85 mm T1.9
- Ultra Prime T✻ Sonnar 100 mm T1.9
- Ultra Prime T✻ Sonnar 135 mm T1.9
- Ultra Prime T✻ Sonnar 180 mm T1.9
- Compact Prime CP.2 T✻ Distagon 18 mm T3.6
- Compact Prime CP.2 T✻XP Distagon 21 mm T2.9
- Compact Prime CP.2 T✻XP Distagon 25 mm T2.9
- Compact Prime CP.2 T✻XP Distagon 28 mm T2.1
- Compact Prime CP.2 T✻XP Distagon 35 mm T2.1
- Compact Prime CP.2 T✻XP Distagon 50 mm T2.1
- Compact Prime CP.2 T✻ Planar 50 mm T2.1 Macro
- Compact Prime CP.2 T✻ Planar 85 mm T2.1
- Compact Prime CP.2 T✻ Makro-Planar 100 mm T2.1 CF
- Ultra 16 T✻XP Distagon 6 mm T1.3
- Ultra 16 T✻XP Distagon 8 mm T1.3
- Ultra 16 T✻XP Distagon 9.5 mm T1.3
- Ultra 16 T✻XP Distagon 12 mm T1.3
- Ultra 16 T✻XP Distagon 14 mm T1.3
- Ultra 16 T✻XP Distagon 18 mm T1.3
- Ultra 16 T✻XP Distagon 25 mm T1.3
- Ultra 16 T✻XP Planar 35 mm T1.3
- Ultra 16 T✻XP Planar 50 mm T1.3
- DigiPrime T✻ 3.9 mm T1.9
- DigiPrime T✻ 5 mm T1.9
- DigiPrime T✻ 7 mm T1.6
- DigiPrime T✻ 10 mm T1.6
- DigiPrime T✻ 14 mm T1.6
- DigiPrime T✻ 20 mm T1.6
- DigiPrime T✻ 28 mm T1.6
- DigiPrime T✻ 40 mm T1.6
- DigiPrime T✻ 52 mm T1.6
- DigiPrime T✻ 70 mm T1.6
- DigiPrime T✻ 135 mm T1.9
- DigiZoom T✻ Vario-Sonnar 6–24 mm T1.9
- DigiZoom T✻ Vario-Sonnar 17–112 mm T1.9
- CFi/CFE-Lenses for Hasselblad 500 (V System)
- F-Distagon T✻ 30mm ƒ/3.5
- Distagon T✻ 40mm ƒ/4
- Distagon T✻ 50mm ƒ/4
- Distagon T✻ 50mm ƒ/4 ZV
- Distagon T✻ 60mm ƒ/3.5
- Planar T✻ 80mm ƒ/2,8
- Planar T✻ 100mm ƒ/3.5
- Makro-Planar T✻ 120mm ƒ/4
- Makro-Planar T✻ 120mm ƒ/4 ZV
- Sonnar T✻ 150mm ƒ/4
- Sonnar T✻ 180mm ƒ/4
- Sonnar T✻ 250mm ƒ/5.6
- Tele-Superachromat T✻ 350mm ƒ/5,6
- FE-Lenses for Hasselblad 200
- Distagon T✻ 50mm ƒ/2,8 FE
- Planar T✻ 110mm ƒ/2 FE
- Hasselblad SWC Biogon 38mm ƒ/4.5
- Rollei 6000 system
- F-Distagon 30mm ƒ/3.5 HFT PQ
- Distagon 40mm ƒ/4 FLE HFT
- Distagon 50mm ƒ/4 FLE HFT
- Distagon 60mm ƒ/3.5 HFT PQ
- Planar 80mm ƒ/2.8 HFT PQS
- Planar 110mm ƒ/2 HFT PQ
- Sonnar 150mm ƒ/4 HFT PQS
- Sonnar 250mm ƒ/5.6 HFT PQS
- Makro-Planar 120mm ƒ/4 HFT PQS
- Rolleiflex TLR
- Planar 75mm ƒ/3.5
- Distagon 55mm ƒ/4
A complete list of Zeiss Hasselblad lenses, including data sheets, is available from Hasselblad Historical.
- Tessar lenses (4 elements in 3 groups)
- Tessar 100mm ƒ/3.5 (6.5×9 cm format)
- Tessar 105mm ƒ/3.5 (6.5×9 cm fmt)
- Tessar 150mm ƒ/4.5 (9×12 cm fmt)
- Planar lenses (5 elements in 4 groups)
- Planar 80mm ƒ/2.8 (6×7 cm fmt)
- Planar 100mm ƒ/2.8 (6.5×9 cm fmt)
- Planar 135mm ƒ/3.5
- Planar 135mm ƒ/3.5 T✻
- Planar 150mm ƒ/2.8
- Sonnar lenses
- Sonnar 180mm ƒ/4.8
- Sonnar 250mm ƒ/5.6
Zeiss ZM lenses fit Leica M mount cameras, including Leica M series, the Ricoh GXR A12, and many mirrorless interchangeable-lens cameras through the use of adapters. Some ZM lenses are manufactured in Germany by Zeiss, others in Japan by Cosina. Lenses designated "C" are considered compact or classic lenses.
- Distagon T✻ 15mm ƒ/2.8 (Made in Germany)
- Distagon T✻ 18mm ƒ/4
- Distagon T✻ 21mm ƒ/2.8
- C Biogon T✻ 21mm ƒ/4.5
- Biogon T✻ 25mm ƒ/2.8
- Biogon T✻ 28mm ƒ/2.8
- Biogon T✻ 35mm ƒ/2
- C Biogon T✻ 35mm ƒ/2.8
- C Sonnar T✻ 50mm ƒ/1.5
- Planar T✻ 50mm ƒ/2
- Tele-Tessar T✻ 85mm ƒ/4
- Sonnar T✻ 85mm ƒ/2 (Made in Germany)
Zeiss claims that the 25mm ƒ/2.8 ZM achieves a resolution of 400 lp/mm in the center of the image at ƒ/4, which is equal to the calculated diffraction limit for this aperture.
Z-series SLR lenses
Zeiss produces optically identical manual-focus lenses for multiple SLR lens mounts under the ZE, ZF, ZK, and ZS lines, manufactured in Japan by Cosina to Zeiss specifications.
|Distagon T✻ 15mm ƒ/2.8||✓||✓|
|Distagon T✻ 18mm ƒ/3.5||✓||✓||✓||✓|
|Distagon T✻ 21mm ƒ/2.8||✓||✓||✓||✓|
|Distagon T✻ 25mm ƒ/2.0||✓||✓|
|Distagon T✻ 25mm ƒ/2.8||✓||✓||✓||✓||✓||✓|
|Distagon T✻ 28mm ƒ/2.0||✓||✓||✓||✓||✓|
|Distagon T✻ 35mm ƒ/1.4||✓||✓|
|Distagon T✻ 35mm ƒ/2.0||✓||✓||✓||✓||✓||✓|
|Planar T✻ 50mm ƒ/1.4||✓||✓||✓||✓||✓||✓|
|Makro-Planar T✻ 50mm ƒ/2.0||✓||✓||✓||✓|
|Planar T✻ 85mm ƒ/1.4||✓||✓||✓||✓||✓|
|Makro-Planar T✻ 100mm ƒ/2.0||✓||✓||✓||✓|
|Apo Sonnar T✻ 135mm ƒ/2.0||✓||✓|
ZF series lenses fit the Nikon F-mount. Four design variations are designated ZF, ZF.2, ZF-I, and ZF-IR. All are manual-focus designs with Nikon AI-S type aperture indexing.
- ZF lenses have AI-S aperture indexing, half-stop aperture ring detents, and no electronic features.
- ZF.2 lenses are like ZF lenses, with the addition CPU functionality, similar to Nikon AI-P lenses. They allow electronic focus confirmation, full metering compatibility, and electronic aperture control with Nikon SLR cameras which require CPU lenses.
- ZF-I lenses feature mechanical locks for focus and aperture, and additional environmental sealing, for industrial applications.
- ZF-IR lenses are adapted to infrared imaging, with coatings that transmit wavelengths up to 1100 nm, and focus scales marked for infrared.
ZE lenses fit the Canon EF mount. They feature electronic contacts allowing for focus-confirmation, and electric aperture operation as with standard Canon EF lenses.
ZK lenses fit the Pentax K mount. They have no electronics, are manual focus only, KA couplers. Zeiss announced in September 2010 the discontinuation of the ZK line.
ZS lenses fit the M42 lens mount (Pentacon/Practica/Pentax screw mount). By use of mount adapters they can be adapted to most 35 mm bayonet camera mounts including Canon FD and EF, Pentax K, Minolta SR and Sony/Konica Minolta/Minolta A mounts (with the exception of Nikon F mount), usually losing open-aperture-metering, multi-segment metering, focus confirmation, automatic flash zoom capabilities as well as some built-in shake reduction performance and Exif data accuracy.
Zeiss produces manual focus Otus lenses for the Nikon F-mount and Canon EF mount, with electronic features equivalent to Zeiss ZF.2 and ZE lenses respectively. Otus lenses are complex no-compromise designs which Zeiss refers to as the "best in the world" in the normal lens and short telephoto categories. They cover the 35mm format.
- Otus Apo Distagon T✻ 28mm ƒ/1.4
- Otus Apo Distagon T✻ 55mm ƒ/1.4
- Otus Apo Planar T✻ 85mm ƒ/1.4
- Zeiss Batis 2.8/18 (Distagon T✻ 18mm ƒ/2.8)
- Zeiss Batis 2/25 (Distagon T✻ 25mm ƒ/2.0)
- Zeiss Batis 1.8/85 (Sonnar T✻ 85mm ƒ/1,8)
- Loxia Biogon T✻ 35mm ƒ/2.0
- Loxia Planar T✻ 50mm ƒ/2.0
- Loxia Distagon T✻ 21mm f/2.8
- Milvus Distagon T✻ 21mm ƒ/2.8
- Milvus Distagon T✻ 35mm ƒ/2
- Milvus Distagon T✻ 50mm ƒ/1.4
- Milvus Makro-Planar T✻ 50mm ƒ/2
- Milvus Planar T✻ 85mm ƒ/1.4
- Milvus Makro-Planar T✻ 100mm ƒ/2
These are 360° tilt/shift lenses (based on Zeiss medium format lens designs) for 35 mm format including full-frame digital. Available mounts: Canon EF, Nikon F, Sony Alpha/Konica Minolta/Minolta A mount. Other mounts on request. Manual focus only, no electronics. Manufactured in Germany and Ukraine.
- Hartblei Superrotator Carl Zeiss Distagon T✻ IF 1:4.0 40 mm
- Hartblei Superrotator Carl Zeiss Planar T✻ 1:2.8 80 mm
- Hartblei Superrotator Carl Zeiss Makro-Planar T✻ 1:4.0 120 mm
A unique triplet of ultra-fast 50 mm f/0.7 lenses originally created by Zeiss for NASA's lunar program had the distinction of being reused by Stanley Kubrick in the filming of his historical drama Barry Lyndon. The period atmosphere of the film demanded that several indoor scenes be filmed by candlelight. To facilitate this, Kubrick had the lenses modified to mount onto a cinema camera and two of them subsequently further modified in separate ways to give wider angles of view.
ZA ("Zeiss Alpha") lenses are designed and manufactured by Sony in Japan, and co-branded with the Zeiss name. Sony and Zeiss collaboratively set design and quality parameters for ZA lenses.
- A-mount ZA-lenses fit the Sony Alpha/Konica Minolta/Minolta A-mount. They are fully dedicated autofocus lenses with eight electrical contacts, ROM-IC, and distance encoder ('(D)-function' to support ADI flash). All except for the DT lens are full-frame lenses.
- Sony α Carl Zeiss Distagon T✻ 1:2 24 mm ZA SSM (SAL-24F20Z)
- Sony α Carl Zeiss Planar T✻ 1:1.4 50 mm ZA SSM (SAL-50F14Z)
- Sony α Carl Zeiss Planar T✻ 1:1.4 85 mm ZA (SAL-85F14Z)
- Sony α Carl Zeiss Sonnar T✻ 1:1.8 135 mm ZA (SAL-135F18Z)
- Sony α Carl Zeiss Vario-Sonnar T✻ 1:2.8 16–35 mm ZA SSM (SAL-1635Z)
- Sony α Zeiss Vario-Sonnar T✻ 1:2.8 16–35 mm ZA SSM II (SAL-1635Z2)
- Sony α Carl Zeiss Vario-Sonnar T✻ DT 1:3.5-1:4.5 16–80 mm ZA (SAL-1680Z)
- Sony α Carl Zeiss Vario-Sonnar T✻ 1:2.8 24–70 mm ZA SSM (SAL-2470Z)
- Sony α Zeiss Vario-Sonnar T✻ 1:2.8 24–70 mm ZA SSM II (SAL-2470Z2)
- E-mount ZA-lenses are fully dedicated Sony E-mount autofocus lenses. Lenses carrying the E designation cover the APS-C format, while lenses designated FE cover 35mm format.
- Sony α Carl Zeiss Sonnar T✻ E 1:1.8 24 mm ZA (SEL-24F18Z)
- Sony α Zeiss Distagon T✻ FE 1:1.4 35 mm ZA (SEL-35F14Z)
- Sony α Carl Zeiss Sonnar T✻ FE 1:2.8 35 mm ZA (SEL-35F28Z)
- Sony α Zeiss Planar T✻ FE 1:1.4 50 mm ZA (SEL-50F14Z)
- Sony α Carl Zeiss Sonnar T✻ FE 1:1.8 55 mm ZA (SEL-55F18Z)
- Sony α Zeiss Vario-Tessar T✻ FE 1:4 16–35 mm ZA OSS (SEL-1635Z)
- Sony α Carl Zeiss Vario-Tessar T✻ E 1:4 16–70 mm ZA OSS (SEL-1670Z)
- Sony α Carl Zeiss Vario-Tessar T✻ FE 1:4 24–70 mm ZA OSS (SEL-2470Z)
Zeiss and its subsidiaries offer a wide range of products related to optics and vision. These include camera and cine lenses, microscopes and microscopy software, binoculars and spotting scopes, eyeglasses and lenses, planetariums and dome video-systems, optics for military applications (head tracker systems, submarine periscopes, targeting systems), optical sensors, industrial metrology systems and ophthalmology products. Even video glasses belong to the product range. In the summer of 2012, the new video glasses Cinemizer OLED will come on the market. In addition to the viewing of 2D and 3D movies, it will be possible to play PC games when it is fitted with equipment. The largest part of Carl Zeiss AG's revenue is generated by its Semiconductor Manufacturing Technologies division, which produces lithographic systems for the semiconductor industry as well as process control solutions (electron microscopes, mask repair tools, helium ion microscopes).
Carl Zeiss Sports Optics division produces rifle scopes, spotting scopes, binoculars, and distance measuring devices for outdoors enthusiasts. The two main product lines are the Conquest line, which is manufactured in Germany and assembled in the United States, and Victory line, which is produced entirely in Germany. Zeiss Sports Optics are revered among the best in the world, and are utilized by military and law enforcement agencies in countries around the world.
This branch of Carl Zeiss is managed by Carl Zeiss Meditec. It is divided in Ophthalmology/Optometry, Neurosurgery, ENT, Spine, P&R, Dentistry, Radiotherapy and Gynecology.
Carl Zeiss Vision Care division develops, manufactures and distributes ophthalmic lenses, lens coatings, and dispensary technologies and services. Zeiss is known for ophthalmic lenses made from high refractive index glass, allowing stronger prescription lenses to be thinner.
Their progressive lens ZEISS Progressive Individual has won multiple awards including the OLA awards in 2009 presented at Washington, D.C. and the VisionPlus or VP Awards in 2014 at Mumbai, India.
Zeiss Industrial Metrology specializes in high-accuracy measurement systems, including coordinate measuring machines (CMMs), computed tomography measurement machines (non-medical), optical measuring equipment, metrology software and measurement sensor systems. The Industrial Metrology subsidiary provides this equipment to a wide range of manufacturing facilities worldwide.
Zeiss has manufactured coordinate measuring machines since 1919, offering very basic manually operated CMMs. In 1973, Zeiss introduced the UMM 500, using a Zeiss sensor system and Hewlett-Packard computer. Zeiss has since vastly improved and diversified their product line and now feature many high accuracy CMMs, the Metrotom, a CT x-ray scanning measuring machine, with the ability to quickly and completely measure a part in 3 dimensions without ever touching the part, and the O-INSPECT, a fully optical measurement machine.
Many of the sensor systems produced by Zeiss are proprietary technologies, using technologies exclusively patented by Zeiss, and therefore can offer better accuracy and repeatability than its competitors.
Zeiss was the first manufacturer of coordinate measurement machines to introduce computer numerical control (CNC) technology to a coordinate measurement machine. Zeiss was the first company to offer CNC stylus changer capability for the said machines.
Zeiss offers different types of microscopes:
- Optical microscopes
- Laser scanning microscopes (LSMs)
- Scanning electron microscopes (SEMs)
- Scanning helium ion microscopes (SHIMs)
The name Zeiss Ikon can also be found in old cinemas, on fire shutters on the projection windows. These had heat fuses that melted and dropped the shutter over the hole if the film caught fire in the projection booth.
- zeiss.de: Executive Board of Carl Zeiss AG
- Slides of Press Conference for fiscal year 2010/11, 1 October 2011 Archived 16 July 2011 at the Wayback Machine.
- (accessed 1 October 2011)
- Carl Zeiss—A History Of A Most Respected Name In Optics.
- 150 Years of Hensoldt Archived 24 May 2011 at the Wayback Machine.
- Gruner, Wolf (2006). Jewish forced labor under the Nazis: economic needs and racial aims, 1938-1944. Cambridge University Press . ISBN 0-521-83875-4. External link in
- Klemperer, Victor (2000). To The Bitter End: The Diaries of Victor Klemperer 1942-45. Phoenix. ISBN 0-7538-1069-7.
- Archived 10 August 2007 at the Wayback Machine.
- König, Karsten (21 July 1998). "A Short Review On History Of Optics In Jena". Institute of Anatomy II, University of Jena. Archived from the original on 30 September 2007. Retrieved 19 February 2008.
- "A passion for politics and a head for business". Optics & Laser Europe. 1 January 2002. Retrieved 19 February 2008.
- What you should know about Carl Zeiss Sports Optics GmbH Archived 24 January 2009 at the Wayback Machine.
- Xiang, Liu (3 July 2013). "Carl Zeiss Officially Renamed To Zeiss". GSM Insider. Retrieved 3 July 2013.
- History of Camera Lenses from Carl Zeiss - 1935 - Alexander Smakula develops anti-reflection coating
- Lens coating invented and developed by Alexander Smakula
- Nettar 515
- Carl Zeiss Camera Lens News 29, September 2008 (retrieved 3 October 2008)
- Two Special Lenses for "Barry Lyndon" (Ed DiGiulio, President, Cinema Products Corp.)
- 808 PureView
- 3D-capable video glasses with Head Tracker for Games (German), Golem, retrieved 3 March 2012.
- Slides of Half-Year Press Conference for fiscal year 2007/08, 29 May 2008 Archived 9 December 2008 at the Wayback Machine.
- "minews - mivision | Bringing Optics into Focus". mivision. 2010-01-20. Retrieved 2015-11-02.
- "VisionPlus Awards". Vp-awards.com. Retrieved 2015-11-02.
- Carl Zeiss, Industrial Metrology – Products and Technology
- Carl Zeiss, Industrial Metrology – 90 Years in Industrial Metrology Archived 27 July 2011 at the Wayback Machine.
- Carl Zeiss, Industrial Metrology – History
- Carl Zeiss, Industrial Metrology – The Metrotom
- Carl Zeiss, Industrial Metrology – The O-INSPECT
- Carl Zeiss, Industrial Metrology – About Us
- Carl Zeiss, Industrial Metrology – CMM Sensor Systems
- Archived 1 February 2014 at the Wayback Machine.
|Wikimedia Commons has media related to Zeiss.|
- Official website
- Zeiss Company Timeline starting 1973
- Carl Zeiss Company Timeline starting 1909
- Carl Zeiss Company History, an older article but updated and covering Zeiss history up to about 2000, with interesting content and illustrations