SU1436091A1 - Adaptive mirror - Google Patents

Abstract

The invention relates to wavefront correction devices and can be used in optical quantum generators as a reflecting mirror for controlling the radiation wavefront. The aim of the invention is to expand the functional possibilities of the adaptive mirror by ensuring that the axis of the profile of the reflecting surface rotates at any angle while simultaneously deflecting both ways from the original. When voltage is applied to the metal plate and the electrode, a spherical bend of the composite plate is applied. When the windings of a four-pole electromagnet are connected to a voltage source in a metal magnetostrictive layer, a magnetic field is induced, the distribution of which depends on the ratio of currents in each winding. This produces an astigmatic bend in the composite plate of different angles of rotation of the cylinder axis. The simultaneous control of the magnetostrictive layer and the piezoceramic layer makes it possible to achieve both a purely cylindrical profile of a mirror and a superposition of a spherical and astigmatic profile. , 2 Il. with O)

Description

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The invention relates to wavefront correction devices and can be used in optical quantum generators as a reflecting mirror for controlling the wavefront of radiation.

The aim of the invention is to extend the functionality of the adaptive mirror by ensuring the rotation of the axis of the profile of the reflecting surface at any angle while simultaneously deflecting both sides of the original

Figure 1 shows an adaptive device; FIG. 2 is a section A-A in FIG. 1. FIG.

The adaptive mirror contains a reflecting plate with a mirror surface 1, made on the disk I of the spa magnetostrictive 2 and I piezoceramic 3 layers, and i the outer layer onto which the I reflecting plate is applied is metal, and the inner layer is made of piezo- ceramics, on a free surface |) Hnness - of which electrode 4 is applied. At the same time, electrode and metal layers are connected to voltage source 5. Base 6 is made of magnesium; of the conductive material and has the form of a four-pole electromagnet. The windings 7 - JO of the poles of the base 6 are connected to their source I1-14 voltage, respectively. The reflecting plate in the middle is rigidly connected to a protrusion 15 of non-conductive material, which is located in the center of the inner side of the base 6

The mirror works as follows.

If it is necessary to obtain a spherical surface, which is used to compensate for aberrations such as defocusing, the voltage from source 5 is applied to the metal plate of the magnetically static layer and electrode 4. In this case, a spherical bend of the composite plate occurs. When connecting windings 7 - 10 four-

a reversal electromagnet to sources 1–14 of a voltage, respectively, in a metal magnetostriction layer 2, a magnetic field is induced, whose distribution in the plane of the layer depends on the ratio of currents in each winding and which, with opposite signs and the absolute magnitude of the magnetic potentials of diametrically located poles, is linearly directed with a turning angle proportional to the ratio of currents in the windings of adjacent poles. The deflection of the composite plate under the action of magnetostrictive forces in this case is close to astigmatic. Controlling simultaneously from the side of the piezoceramic 3 and magnetostrictive 2 layers allows one to achieve both a purely cylindrical profile of the mirror and the suspension of a spherical and astigmatic profile.

Claims (1)

Invention Formula An adaptive mirror containing an elastic plate with two active layers with a front reflecting surface fixed on the base and placed between the poles of the magnetizing system, characterized in THO5 in order to expand its functional capabilities due to the rotation of the axis of the profile of the reflecting surface at any angle with simultaneous implementation deflection in both directions from the source device, the outer layer of the plate is made of magnetostrictive material, the magnetizing system is made in the form of four w romagnita electron pole, each pole winding is connected to its own voltage source, and an inner layer of piezoceramic plates vtolnen on which is deposited a back surface electrode, wherein the electrode and the metal layer is connected to an additional voltage source.  Rig.