SU800946A1 - Coronograph - Google Patents

Description

The invention relates to solar telescopes, such as coronographs.

A coronograph is known which contains a lens that builds the primary image ^, an opaque moon screen, ³ field lenses, an aperture that forms light diffracted on the lens barrel, which reconstructs the lens and photodetector [1] and [2].

The disadvantage of this device is the significant astigmatism and curvature of the image introduced by the field lens having a small focal length compared to the focal length of the lens, which leads to low-15 image quality in the field of view.

The purpose of the invention is the improvement of image quality in the field of view. 20

This goal is achieved in that the distance between the input lens and the field lens is equal to the focal length of the latter, the aperture is located in the image plane of the rim of the input lens constructed by the field lens - projection lens ’system.

The drawing shows an optical diagram of the coronograph.

The coronograph contains a lens 1 that builds the primary image 2, an opaque screen -``- moon 3, a field lens 4, a projection lens 5, aperture 6 and a photodetector 7.

When observing the corona or other dimly lit lenses at the edge of the Sun, the optical axis of the telescope is directed to the edge of the visible disk of the Sun, while the primary image 2 of the disk constructed by lens 1 is delayed by the opaque moon screen 3, and the image of the corona is reconstructed by projection lens 5 onto photodetector 7. So as the distance between the lens 1 and the lens of the field 4 is equal to its focal length, after the lens 4 of the field the beam path is telecentric. Aperture 6 installed. In the place of construction of the image of the lens frame 1, cuts off a bright ring of light diaphragmed on the frame, preventing it from entering the photodetector.

When observing the Sun with an interference polarized filter (IPF) for the spectral purity of the image, i.e. To ensure observations of all image points with the same spectral composition, it is necessary to interfere with the IPF in the telecentric path of the rays, which is provided by the design of the coronograph.

Improving the image quality over the field of view when the light scattered from the lens barrel is eliminated * is achieved by the fact that the field lens is mounted directly behind the opaque moon screen at a distance from the Lens equal to the focal length of the field lens, and the overall dimensions of the telescope remain / Xia the same.

Claims (2)

The invention relates to solar telescopes, such as corinographs. A corinograph is known, which contains a lens that builds a primary image, an opaque screen-moon, a lens, a diaphragm, forming a rearrangement light diffracted on the lens mount, and a photodetector 1 and 2. The disadvantage of this device is significant astigmatism and visibility introduced by the lens. for a field that has a small focal distance compared to the focal length of the lens, which results in poor image quality in the field of view. The purpose of the invention is to improve the image quality in the field of view. This goal is achieved by the fact that the distance between the input lens and the lens is equal to the focal length of the latter, the diaphragm is located in the image plane of the rim of the input lens constructed by the floor-projection lens system. The drawing shows the optical layout of a coronagraph. The coronagraph contains a lens 1, which builds a primary image 2, an opaque screen — the moon 3, a lens 4 floor, a projection lens 5, a diaphragm 6, and a photodetector 7. When observing a corona or other matching lenses on the edge of the sun, the telescope's optical axis is directed to the edge the visible disk of the Sun, while the primary image 2 of the disk constructed by lens 1 is delayed by the opaque screen of the moon 3, and the image of the corona is rearranged by the projection lens 5 to the photodetector 7. Since the distance between the lens 1 and the lens is l 4 is equal to its focal distance, after the lens 4 is the half-course of the tele-centering rays. The diaphragm 6, mounted in the place where the rim of the lens 1 is being framed, cuts off a bright ring of light that is diaphragmically mounted on the rim, preventing it from falling on the photodetector. When observing the Sun with an interference-polarized filter (IAP) for the spectral purity of the image, i.e. To ensure observation of all points of the image with the same spectral composition, it is necessary to interfere the IAP in the telecentric beam path. which is provided with a coronagraph design. Improving the image quality in the field of view while eliminating the light scattered from the lens rim is achieved by placing the field lens directly behind an opaque screen at a distance of the volume equal to the focal length of the lens field, and the telescope dimensions remain the same . The invention of the Coronagraph, the contents of the input lens, an opaque screen-moon, a lens placed behind it, a floor, a diaphragm and a projection lens, which, in order to improve the image quality in the field of view, the distance between the input lens and the field lens the focal distance of the latter, the diaphragm is placed in the image plane of the vhrd-lens mount, built by the lens and floor projection lens system. Sources of information taken into account during the examination 1.Nikolsky G.M. et al., Geomagnetism and Aeronomi, V. 2.3, 1962, p.532, 2. The course of astrophysics and. Astrongia. V. 1, M.-L., 1951, p.581 (prototype). I s