SU1594478A1 - Spatial-time light modulator - Google Patents

Abstract

This invention relates to technical physics. The purpose of the invention is to increase the diffraction efficiency, reduce the control voltages, expand the spectral range and power of the modulated radiation. The space-time modulator of light contains a slice crystal plate corresponding to the maximum transverse electro-optical effect, with a transparent electrode deposited on it on one side and a dielectric mirror on the other, a photo-semiconductor plate with a transparent electrode on one side and an electrical voltage source connected to transparent electrodes. To achieve the goal, a glass metal fiber washer was inserted into the modulator, which was glued to the electro-optical crystal plate from the side of the dielectric mirror by metal conductors and to the photo-semiconductor plate from the free surface. The metal wires of the washer protrude above the surface of its glass body for a distance not less than the thickness of the optical glue, and the diameter of the wires and the step of filling them in the glass washer are less than the minimum period of the spatial grid of the informative signal. 1 il.

Description

The invention relates to technical physics, in particular to devices controlling optical radiation for the purposes of optical information processing, and can be used to record and enter real-time two-dimensional images into coherent optical information processing systems.

The aim of the invention is to increase the diffraction efficiency, reduce the control voltages, increase the spectral range and power of the modulated radiation,

The drawing shows a modulator circuit.

The space-time modulator contains a stristngu kristgla 1

slice corresponding to the maximum transverse electro-optical effect, on one surface of which a transparent electrode 2 is deposited, and on the other - a dielectric, a mirror 3 and a photo-semiconductor 4 s sec. by a transparent electrode 5. zhuami 7.

The modulator works as follows

 The dark resistance of the photo-i-semiconductor layer is chosen so that, in the absence of a recording (informative) image on the photo-semiconductor layer, all the voltage from an external source drops on this layer, i.e. the voltage on the crystal is absent in this case. When designing a scientific research institute of an image on a photo-semiconductor surface, its resistance is spatially modulated according to a VII with a spatial distribution: the intensity of light in the image. This leads to the fact that the voltage from an external source gets to Kristapples, the greater the intensity of the light at a given point of the image.

The voltage on the crystal. Locally falls through the metal wires of the glass washer, i.e. the electrical potential on the surface of the cristapl has a discrete structure in contrast to the structure of the image itself. In this case, the magnitude of the local potential applied to the crystal depends on the intensity of the light at a given point.

the recorded image, and the electric field in the bulk of the crystal is substantially inhomogeneous, but with circular symmetry. Since the cut of the crystal in the device corresponds to the maximum transverse electro-optic effect, a change in the refractive index in this crystal is observed only due to the transverse components of the field. Therefore, in this case, the change in birefringence of the crystal occurs only due to the tightening of the electric field for the geometrical dimensions of the core of the washer.

In this connection, the diameter of the core in the washer is chosen as low as possible. In the limit the most profitable

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count the point contact of the core with the surface of the crystal. In order to transmit fragments of an informative image without distortion, the step of filling the pins in the puck must be less than the maximum spatial frequency contained in this fragment. Only in this case there is no loss of information in the process of spatial modulation. In this case, since the informative image is transmitted to the surface of the crystal as a discrete value of a potential that is significantly smaller than the period of the informative array, the orientation of the vectors of this lattice in this image does not matter for its subsequent reproduction. In addition, by sampling the electric potential, it is possible to reproduce zero spatial frequencies.

Claims (1)

Claims of Invention The spatial-temporal modulator of light comprising a cris-plate. tal of the cut corresponding to the maximum transverse electro-optic effect, with a transparent electrode deposited on it from one side. and a dielectric mirror on the other hand, a photosemiconductor plate with a transparent electrode on one side and an electrical voltage source connected to transparent electrodes, characterized in that, in order to increase diffraction efficiency, reduce control voltages, expand spectral range and power modulated radiation, a glass metal fiber washer was added to it, which was glued to the plate of the electro-optic crystal with metal conductors and a plate of the photosemiconductor from the free surface, the metal wires of the washer protrude above the surface of its glass body for a distance not less than the thickness of the optical glue, and the diameter of the wires and their filling step in the glass washer are less than the minimum spatial period lattice informative signal. W /. " f ; Z ff F zzz 322 P zzz X az sz ZB as X zz