SU122304A1 - Afoka system - Google Patents

Description

The correction of the chromatic difference of magnifications of visual optical devices, especially for large fields, is very difficult. A good correction of this aberration within the entire field of vision does not occur in all even the most advanced optical instruments.

Since the course of the chromatic difference of magnification curve deviates from the linear, the best correction of this aberration is one in which it changes sign within the field of vision.

In order to ensure that the magnitude of the chromatic difference of magnifications at the edge of the field is not too large with this correction, it is necessary to increase the value of this aberration in parts of the field of view close to the center. This leads to a deterioration of the image quality in these parts of the field of view, since other aberrations in them are in most cases not large.

The proposed two variants of the system shown in FIG. 1, a, b and in FIG. 2, a, b, serve to correct the chromatic difference of magnifications. Since all aberrations of the systems, except for the chromatic difference of magnifications, are practically zero, these systems are called compensators of the chromatic difference of magnifications.

In the embodiment shown in FIG. 1, a and b, the lenses / and are negative, and the lenses 2 to 3 are positive. The radius of gluing of lenses 1 2 is significantly larger than the radius of gluing of lenses 3 4. As a result, lenses / and 2 influence the chromatic difference of magnifications of the first order, and lenses of 3 4, mainly, the chromatic difference of magnifications of the third and higher orders. If lenses / and 5 are made of crown, then lenses 2 4 are made of flint and vice versa. By choosing glasses and calculating the radii of the glued surfaces of the lenses / and 2, as well as 3 4, you can get the chromatic difference of the system magnifications, but it is equal to # 122304

opposite to the sign of the chromatic difference of magnifications of the system being corrected. This achieves high quality correction of the chromatic difference of magnifications over the entire field of view.

The system in FIG. 2, a and b has a simpler design — only two lenses 3 and 4 remain in it. It has fewer possibilities when correcting the chromatic difference of magnifications. If lens 3 is made of crown, then lens 4 is made of flint.

The basic idea on which the proposed systems are based is the use of gluing very much of that radius (small in absolute value). In conventional systems, on the contrary, they try to avoid using glueing of steep radii, since this leads to unavoidable large meanings of the aberration of higher orders. The idea of using a "hard radius" glue to correct the chromatic difference of magnifications requires the use of glasses with a small difference in refractive indices and with different dispersions for their implementation.

The chromatic difference of magnifications is corrected most effectively, if the gluing radius of lenses 3 and 4 lies in the range from 0.45 to 1.0 of the image diameter (D), then the difference in the refractive indices of glasses of all lenses for the main wavelength beams does not exceed 0.01 and the difference in dispersion coefficients is not less than 10.

Subject invention

Claims (5)

1.Afocal (or almost afocal) system, consisting of four glued flat convex lenses, the first and third of which are made of crown, the second and fourth are of flint (or vice versa), with the difference of refractive index of the main wavelength not more than 0.01 and a difference in the dispersion coefficients not less than 10.0, characterized in that, in order to compensate for the chromatic difference of magnifications, the system is installed near the image plane, with two spherical gluing surfaces located closer to the plane depicted and is convex to the image plane, and the radius of curvature of this surface lies in the range from 0.45 to 1.0 of the image diameter. 2. An afocal (or almost afocal) system according to claim 1, characterized in that it consists of two glued flat-convex lenses, one of which is made of a crown, and the other of flint. 3. The form of the system according to claim 1, characterized in that the outer surfaces have a weak curvature. 4. The form of the system according to claim 1, which means that the first two glued lenses are separated from the other two glued lenses by an air gap, and that the surfaces bordering the air have a weak curvature. 5. The form of installation of the system according to claim 2, characterized in that the outer surfaces have a weak curvature.