DE1166498B - Very fast Gauss lens - Google Patents

Description

Very fast Gaussian lens The invention relates to a Six-lens Gaussian lens in which the aperture of two cemented scattering Menisci is surrounded and this in turn enclosed by two individual converging lenses are. It represents a further development of a well-known lens that does the job solves to create a Gaussian lens with an aperture ratio of around 1: 1.5 in which the focal length is at least 70% of the focal length.

The lens according to the present invention shows ways that To increase the light intensity even further and at the same time keep the focal length as long as possible to keep. This is necessary, for example, for narrow film shooting lenses, those for the mechanical parts between lens and film, but especially for a reflex system to be accommodated for the viewfinder, to create space is. Accordingly, the lens according to the invention has a focal length of approximately 0.66 of the focal length; the aperture ratio is 1: 1.2. The intended use accordingly, the angle of view is limited to about 26 °.

This task requires a substantial reduction in spherical zone so that image sharpness and contrast assume the highest possible values.

When used as a cinema lens, the overall length of the systems plays a role rarely a major role; after all, the lens according to the invention succeeded in this way to build that its length is smaller than the focal length itself.

In order to meet these requirements, glasses were of course used high refractive index used. The mean of the refractive indices of all six lenses is included 1.75. Furthermore, the spherical correction with few zones requires the longest possible radii on the faces of all lenses. So the shape was turned towards the long back focal length Converging lens approximated the plano-convex so that the radius ratio is above the value 0.30 is located.

The putty surface, hollow towards the diaphragm, in the scattering meniscus on the side the long back focal length enables thin lens thicknesses and contributes to the short overall length and contributes to the long focal length of the lens. The thickness of this meniscus is smaller than 20% of the focal length.

With regard to the spherical freedom from zones, it is essential that no The radius of the entire system is less than 28% of the focal length that still no The radius of the lenses on the short focal length side is smaller than 40% and that the ratio of the radii adjacent to the diaphragms is absolute taken, is 0.72.

The zoning measures also include the individual, the short back focal length facing converging lens so that its inner radius of curvature is smaller than the outer one, i.e. it turns the flatter side outwards.

In the following table, the objective according to the invention has been reproduced for f '= 1; the figure shows its longitudinal section: r1 ..................... +0.687 d1 ................... .. 0.126 nl / vl ................... 1.788 / 50.5 r, .................. ... -1-1,895 1 i ....... .............. 0.0007 r3 ..................... +0.510 d., ...... ............... 0.128 n, / v2 ................... 1 , 807 / 40.6 r4 ... .................. +0.760 d: 3 ..................... 0.043 n: 3/1 ,: 3. . . . . . . . . . . . . . . . . . . 1.699 / 30.1 r5 ..................... +0.300 to .................... . 0.167 or ..................... 0.089 r6 ..... . . . . . . . - 0.419 d4 ..................... 0.110 n4 / 1.4 ................... 1 , 74 1 / 28.1 r; . . . . . . . . . . . . . . . . . . . . . + 1.431 d5 ..................... 0.213 h5 / v. ................... 1.734 / 51.0 r, ..................... -0.607 1 : 3 ..................... 0.004 r0 ..................... +1.102 d0. .................... 0.103 n./v6 ................... 1 , 788/47; 4 r10. . . . . . . . . . . . . . . . . . . . . -2.143 s' ...................... 0.658 aperture ratio ....... 1: 1.2 angle of view ......... ..... 26 ° length ............... 0.983 rl / r, ................... 0.363 r5 / r "................... .716

Claims (1)

Claim: Six-lens Gaussian lens, the aperture of which is enclosed by two cemented scattering meniscuses, which are followed on each side by a single converging lens, characterized by the following data in any units of measurement with ± 5% deviation of the curvatures, based on the total refractive power of the lens, ± 20 % Deviation of the thicknesses and air spaces, based on their respective values, ± 0.03 deviation of the refractive indices and ± 5 units of the Ny values: r1 ..................... + 0.687 dl ..................... 0.126 nl / vl. . . . . . . . . . . . . . . . . . . l, 788 / 50.5 r2 ..................... -r1,895 11 ..................... 0.0007 r3. . . . . . . . . . . . . . . . . . . . . -! - 0.510 d2 ..................... 0.128 n1 / v2 ................... 1.807 / 40.6 r4 .... «, ******* ........ -f-0.760 d3 ..................... 0.043 n31v3 ................... 1.699 / 30.1 r5 ..................... +0.300 bi ..................... 0.167 b2 ..................... 0.089 r 6 ..................... -0.419 d4 ..................... 0.110 n4iv4 ................... 1.741 / 28.1 r7. . . . . . . . . . . . . . . . . . . . . + 1.431 d5 ..................... 0.213 n5 / v5 ................... l, 734 / 51.0 r. ..................... -0.607 13 ..................... 0.004 r,. . . . . . . . . . . . . . . __ .. +1.102 d6 ..................... 0.103 n / a ................... l, 788 / 47.4 rlo ..................... -2.143 s' ...................... 0.658 Focal ratio ....... 1: 1.2 Angle of view .............. 26 ° Overall length ............... 0.983 rl / r .., ................... 0.363 r5 / r6 ................... 0.716 References considered: U.S. Patent No. 2,601,805.