SU1151920A1 - Device for data input into coherent optical processor - Google Patents

Abstract

1. DEVICE FOR INPUT OF INFORMATION INTO A COHERENT-OPTICAL / KIY PROCESSOR, containing a controllable transparency optically connected through successively located micro-lens, lens and mirror with a laser, and also through a projection lens — with an image input device that is improving the quality of input by reducing the loss of light, the mirror is made opaque, having the size of the order of the lens resolution element, and is set as the center at the front focus point of the projection lens, and TIV and form a lens focusing system, the back focus which is aligned with the center of the mirror. 2. A device according to claim 1, characterized in that the mirror is made in the form of a reflective coating on a portion of a transparent plane-parallel plate. (About SD with 1 hE

Description

The invention relates to the field of optical information processing and can be used to input signals and images into a coherent optical processor with spatial integration, in particular into a sound field analyzer.

A device for inputting information into a coherent-optical processor is known, in which an input image is recorded on an optical controlled transparency, which is then read in reflected coherent light [1].

The disadvantage of this device is the difficulty of forming the desired modulator with an internal reflective dielectric mirror.

Closest to the technical nature of the present invention is a device for inputting information into a coherent optical processor, containing a controlled transparency optically connected to the laser through a micro lens, lens and mirror (translucent), and also through a projection lens with a television type image input device [2 ].

A disadvantage of the known device is the energy loss of the recording and reading light beams due to the use of a translucent mirror and leading to a loss in input quality due to a decrease in the signal-to-noise ratio during recording, a decrease in the diffraction efficiency and resolution of the transparency, as well as a decrease in the signal-to-noise ratio in the device output from the processor.

The aim of the invention is to improve the quality of input by reducing light loss.

This goal is achieved by the fact that in the device for inputting information into a coherent-optical processor ^ containing a controlled transparency optically connected through a sequentially located micro-lens, a lens and a mirror with a laser, and also through a projection lens - with an image input device, the mirror is made opaque and installed by the center at the point of the front focus of the projection lens, and the micro-lens and lens form a focusing system, the back focus of which is aligned with the center of the mirror.

In addition, the mirror is made in the form of a reflective coating in the area of a plane-parallel transparent plate.

The drawing shows a diagram of the proposed device for inputting information into a coherent optical processor.

The device contains an optically controlled transparency 1, optically coupled to a laser 2 through a mirror 3, a micro lens 4, a lens 5, a point mirror 6, deposited on a transparent plane-parallel plate 7 and a projection lens 8, and also through the latter with an image input device 9 10. A point mirror 6 is set centered at the point of the front focus of the projection lens 8. The micro lens 4 and the lens 5 form a focusing system, the back focus of which _{15 is} aligned with the center of the point mirror 6.

The device operates as follows.

The input image is displayed by the image input device 9 and recorded through a projection lens 8 20 onto a controlled transparency 1. The reading light beam from the laser 2 is deflected by the mirror 3. It is focused by the micro lens 4 and lens 5 to the center of the point mirror 6 and is directed last along the optical axis of the projection lens 8. ²⁵ This lens collimates the reading beam, after which the beam is subjected to spatial modulation recorded on the banner 1 image.

The efficiency of the proposed device _{30 for} inputting information into a coherent optical processor as compared with the known device consists in improving the quality of input due to a significant (several-fold) reduction in the energy losses of the recording and reading beams. The decrease in the energy loss of the recording beam is determined by the fact that the plate 7 with the mirror 6 applied on it transmits about 90% of the light, and the projection lens 8 can be short-focus and, accordingly, ⁴⁰ faster than the long-focus lens that can be used in the known device. The decrease in loss in the reading beam compared with the known device is determined by the non-transparency of mirrors 3.6.

Thus, the proposed device can improve the quality of input compared to the known device, while the noise immunity to internal noise of the input device and the processor as a whole increases several times, and the frequency response of the input device improves (expands).

Compiled by V. Ajalov Editor V. Ivanova Order 2319/35 Tehred I. Veres Corrector O. Bilak Circulation 448 Subscription

VNIIIPI of the USSR State Committee for Inventions and Discoveries

113035, Moscow, Zh-35, Raushskaya nab., D. 4/5

Branch of the PPP "Patent", Uzhhorod, st. Project, 4

Claims (2)

1. INFORMATION INPUT DEVICE IN COHERENT-OPTICAL KIY PROCESSOR, containing a controllable transparency optically connected through a sequentially placed micro lens, lens and mirror with a laser, and also through a projection lens - with an image input device, characterized in that, in order to improve input quality by reducing light loss, the mirror is made opaque, having a size on the order of the resolution element of the lens, and set by the center at the point of the front focus of the projection lens, and the micro-lens and lens form a focusing system, the back focus a mirror which is aligned with the center. 2. The device according to π. 1, characterized in that the mirror is made in the form of a reflective coating in the area of a transparent plane-parallel plate.