SU716016A1 - Light modulator - Google Patents

Description

(54) LIGHT MODULATOR

This invention relates to optical devices for controlling the intensity of optical rays.

A known light modulator, based on the contact of an opaque element controlled by piezoelectric or magnetic forces, with a given portion of the light scattering border, which translates this portion from a light reflector into a light absorbing one.

However, this modulator has a low speed, low resolution and does not work for a time.

The closest in technical essence to the proposed modulator is a modulator based on a change in the optical density of two deformable layers of contrastive colors due to their deformation 2. This modulator contains two adjacent one another layer of elastic deformable materials of contrasting colors enclosed between substrates. At least one of the substrates is transparent. The means for realizing the deformations is made in the form of two electrodes deposited on the BuyTpeKHHe surface of the substrates and connected to the source of the electrostatic voltage. In this case, one of the electrodes is solid, and the second is multi-element, and the solid electrode is transparent to light. During deformation. One of the layers comes in contact with the outer surface of the second layer.

However, such a modulator has

0 insufficient speed and resolution, as well as complex in construction.

The aim of the invention is to simplify the design and expand the functional possibilities.

The goal is achieved by the fact that in a modulator containing a substrate with an electrode and a deformable layer, the base

0 with a transparent control electrode and a voltage source connected to the electrodes, a dielectric transparent film is placed on the control electrode, a free surface

5 of which, obrgiceii to the deformable layer, is made of light-scattering ..

The drawing shows a diagram of the proposed modulator.

0

The light modulator contains a substrate 1 with an electrode 2 and a defoaming lye 3, a transparent base 4 with a control of TtpO9pa4HN electrode 5, on which a diffusion film 1 of a transparent film 6, the surface 7 of which is: a full scattering system. Both electrodes 2 and 5 are connected to the Istichnik voltage 8. ...:::: ", ..

The substrate 1 and the transparent base 4 can be made of glass, and the electrode 2 and the control electrode 5 can be made of tin oxide. The deformable layer 3 is a gel.

The device operates as follows.

When the voltage source 8 is turned on at the interface of the deformable layer 3, the medium is conjugated to it (for example, air), an electrostatic pandermotor force arises and is directed to the side of the medium with a lower dielectric constant. As a result of the force acting on the deformed layer 3, an ipf is formed, on its surface, KOTOILY comes into contact with a diffusers surface 7 of the JDIH electrical film 6, converting a portion of the film 6 from the diffusers 6 to the Windproof Transmission, and in the case of a transparent deformable layer 3, and the light absorption in the case of an opaque defrosting layer 3. When it comes to this section, the contact area of the deformable layer 3 with the dielectric film 6 depends on the voltage applied to the electrodes 2 and 5.

A light tettor can find a wide use in display devices.

information and indicator devices, as well as in various optoelectronic devices (for example, an optical key).

In the modulator, a higher speed is achieved, it is possible to apply electrodes with a high spatial frequency, which can provide a higher density. This light modulator is economically justified due to a significant simplification of the design and manufacturing technology, as well as minimal energy consumption due to the use of electrically static forces.

Claims (2)

1. US patent No. 3698793, cl. 350-160 R, published. 1972. 2. USSR author's certificate 552582, cl. G 02 F 1/19, 1975 (prototype). four" /