SU851321A1 - Interferential modulator - Google Patents

Description

(54) INTERFERENCE MODULATOR

one

The invention relates to technical physics, in particular to optical-mechanical spectral devices, and can be used to encode radiation frequencies in instruments of the SISAM type, the factory Perot, Fourier spectrometer

and t. P .;.

An interference modulator is known that contains optical wedges moving across the beam, forming together a plane-parallel plate of variable thickness {I.

A disadvantage of this device is the impossibility of increasing the modulation frequency above 40 Hz due to the appearance of vibrations caused by reciprocating movement of wedges, which distort the interference pattern at the output of the spectral instrument.

The closest to the proposed interference modulator contains two optical wedges, the beveled surfaces of which form an airborne plane plate mounted along the beam on the optical axis of the instrument, one of which is displaced en and motor 2.

The disadvantages include low modulation frequency.

The purpose of the invention is to increase the modulation frequency.

This goal is achieved due to the fact that, in an interference modulator containing two optical wedges, the beveled surfaces of the coils of the device form an air-parallel plate mounted along the beam on the optical axis of the device, one

10 of which is stationary, and the engine, the movable wedge is eccentrically fixed to rotate on the engine axis, and its beveled surfaces are symmetrical about the line

15 an eccentricity, with a movable optical wedge attached to the axis of the motor through an eccentric device, allowing adjustment of the eccentricity value.

20

In the drawing: shows the scheme of the interference modulator.

The interference modulator consists of an electric motor 1, whose axis through a coupling 2

25 is connected to a movable optical wedge 3, the axis of rotation of the engine and the optical axis of the movable wedge being shifted relative to; FRIEND other by the value of e using a mechanical

) 0 device 4, allowing to change

eccentricity value, and fixed optical wedge 5.

The interference modulator operates as follows.

The rotation of part 3 leads to its displacement across the light beam by the value of e, which is set depending on the predetermined modulation depth of light, per revolution. Stationary part 5 Forms with a movable part 3 a plane-parallel plate, the thickness of which varies with rotation. The shape of the inner surfaces of the rotating part 3 and the stationary 5 is selected so that the wave front can be corrected symmetrically throughout the field. The rotational speed of the balanced Da axis of the engine parts 3 - can be increased to 20 thousand rpm, which, combined with a change in eccentricity, e, allows frequency modulation in a wide range up to 300 Hz.

The use of the proposed modulator makes it possible to significantly increase the frequency of light modulation in interference devices such as Fourier spectrometer and SISAM by at least an order of magnitude, and thereby equip the researcher with a new tool that allows to study and record fast-moving physical processes.

(eg

phase transformations of substances).

Claims (2)

1. Interference modulator containing two optical wedges, the beveled surfaces of which form an air plane-parallel plate mounted along the beam. on the optical axis of the instrument, one of which is fixed, and the engine, characterized in that, In order to increase the modulation frequency, the movable wedge is reinforced eccentrically to rotate on the engine axis, and its beveled surfaces are symmetrical about the eccentricity line. 2. A modulator according to Claim 1, characterized in that the movable optical wedge is attached to the motor axis through an eccentric device, allowing adjustment of the eccentricity value. Sources of information taken into account in the examination 1. USSR author's certificate number 108418, cl. -5 01 J 3/14, 1956. 2. Authors certificate of the USSR 101321, cl. G 01 J 4/04, 1954.