Difference between revisions of "Double Gauss"
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− | {{ | + | {{Glossary}} |
− | The cornerstone of "normal" lens designs in the f/1.7-f/2.0 class, the '''double Gauss''' formula originates with | + | {{Flickr_image |
+ | |image_source= https://www.flickr.com/photos/vox/52502373991/in/pool-camerawiki/ | ||
+ | |image= https://live.staticflickr.com/65535/52502373991_58a53cf58c_m.jpg | ||
+ | |image_align= left | ||
+ | |image_text= | ||
+ | |image_by= | ||
+ | |image_rights= | ||
+ | }} | ||
+ | {{Flickr_image | ||
+ | |image_source= https://www.flickr.com/photos/alf_sigaro/29303737971/in/pool-camerawiki/ | ||
+ | |image= https://live.staticflickr.com/8220/29303737971_8a18df3ff5.jpg | ||
+ | |image_align= right | ||
+ | |image_text= Deeply-curved doublets bracketing<br>the iris are a double-Gauss hallmark.<br>Improved double-Gauss designs<br>introduce some mild asymmetry | ||
+ | |image_by= Alf Sigaro | ||
+ | |image_rights= nc | ||
+ | }} | ||
+ | The cornerstone of "normal" lens designs in the f/1.7-f/2.0 class, the '''double Gauss''' formula originates with the [[Carl Zeiss | Zeiss]] [[Planar]] of 1896. The classical version has six elements in a 1-2-2-1 configuration, symmetrical around the aperture stop. | ||
− | Photographers may simply refer to a "Gauss" design lens. Strictly this is not correct, as Carl Friedrich Gauss had originally described a | + | Photographers may simply refer to a "Gauss" design lens. Strictly this is not correct, as Carl Friedrich Gauss had originally described a telescopic objective pairing a positive and a negative element. Using two Gaussian lenses back-to-back was the vital innovation for photography. |
− | Countless derivatives of this formula have been manufactured with variations including air-spacing rather than cementing the inner doublets; splitting the outer elements into two, | + | Countless derivatives of this formula have been manufactured with variations including air-spacing rather than cementing the inner doublets; splitting the outer elements into two, and so on. Lenses in the f/1.0–f/1.4 class are frequently these modified double-Gauss designs. |
+ | {{Flickr_image | ||
+ | |image_source= https://www.flickr.com/photos/vox/52496545172/in/pool-camerawiki/ | ||
+ | |image= https://live.staticflickr.com/65535/52496545172_7edfd06cc6_w.jpg | ||
+ | |image_align= left | ||
+ | |image_text= This 7-element derivative achieves f/1.4<br>([[Olympus OM system]] Zuiko 50mm) | ||
+ | |image_by= Voxphoto | ||
+ | |image_rights= nc | ||
+ | }} | ||
+ | [[Category:Glossary]] |
Latest revision as of 00:49, 16 November 2022
Deeply-curved doublets bracketing the iris are a double-Gauss hallmark. Improved double-Gauss designs introduce some mild asymmetry image by Alf Sigaro (Image rights) |
The cornerstone of "normal" lens designs in the f/1.7-f/2.0 class, the double Gauss formula originates with the Zeiss Planar of 1896. The classical version has six elements in a 1-2-2-1 configuration, symmetrical around the aperture stop.
Photographers may simply refer to a "Gauss" design lens. Strictly this is not correct, as Carl Friedrich Gauss had originally described a telescopic objective pairing a positive and a negative element. Using two Gaussian lenses back-to-back was the vital innovation for photography.
Countless derivatives of this formula have been manufactured with variations including air-spacing rather than cementing the inner doublets; splitting the outer elements into two, and so on. Lenses in the f/1.0–f/1.4 class are frequently these modified double-Gauss designs.
This 7-element derivative achieves f/1.4 (Olympus OM system Zuiko 50mm) image by Voxphoto (Image rights) |