SU1394195A1 - Device for controlling emission polarization plane - Google Patents

Abstract

The invention relates to the field tti-, li- fra. C-optics and can be used to control the plane of polarization of radiation in the middle IR region. The goal is to increase and stabilize the transmittance of the device during the control of the plane of polarization of radiation in the middle region. Mirrors 5, 6, and 7 are placed in the device body 1 so that the normals to the planes of these mirrors lie in the same plane, in which the axis of rotation of the body 1 also lies. Control of the radiation polarization plane is not possible by rotating the device around the axis of rotation of the body 1. 1 silt, kz. and /// 7 // 7/1 s & (L with

Description

ZZ7y / Z ///// A

Sdmod

 about

from cd

The invention relates to optics and to be used to control the polarization plane of radiation in the middle IR region.

The purpose of the invention is to increase and stabilize the transmittance coefficient | and the device in the process of controlling the polarization plane C of the middle IR region.

I The drawing shows the diagram of the device.

; The device comprises a housing 1, made in the form of a hollow cylinder, inside of which, on the adjusting nodes 2, 3 and 4, are placed the inlet 5, the intermediate 6 and the outlet 7 of the mirror. Mirrors are made of the same material, for example copper. The normals to the planes of the mirrors 5-7 lie in the same plane, which is the plane of incidence of the radiation, and for all these mirrors, in which the axis of rotation of the housing 1 also lies.

The device works in the following way.

Linearly polarized radiation, directed along the axis of rotation of the device, is successively reflected from mirrors 5-7 and exits the device in the original direction. The position of the polarization plane of the radiation is controlled by rotating the device around the axis of rotation, iT.e, by changing the angle between the plane (polarizing the input radiation and the incidence of radiation falling on the input mirror 5 (change, azimuth of the oscillations). With the oscillation azimuth of the input Radiation The azimuth of the output radiation is a value close to about, i.e. the angle of rotation ji of the radius of polarization of the output radiation relative to the input radiation is 9 -. () i.

The calculation by the Fresnel formulas shows that the device with mirrors made of copper, with the angle of incidence on the input and output mirrors equal to 55 °, at the radiation wavelength

Q

50

five

P

five

0

45

10.6 µm has the following parameters :, the transmittance of the radiation is not less than 0.95, the degree of polarization of the output radiation when the linear-polarized input is at least 0.997, the change in the power of the output radiation when the polarization plane is rotated by 90 - no more than 2%, deviation from linear dependence (2o. - no more than + 0.6%.

High characteristics of the device are also provided when making mirrors made of aluminum, silver, gold and other materials that have a Brewster angle in the mid-IR region of the spectrum more than 80 with angles of incidence of radiation on the mirrors no more than 70% of the Brewster angle,

Claims (1)

Invention Formula A device for controlling the radiation polarization plane, comprising an input mirror placed in the housing, an intermediate mirror and an output optical element, the housing is rotatably mounted around the optical axis of the device coinciding with the direction of radiation propagation, and the mirrors and the output optical element are installed in such a way that to the planes of the mirrors and the output optical element lie in the same plane with the optical axis of the device, the intermediate mirror is located parallel to this axis, and the input mirror and the output optical element on the optical device at an angle to it, characterized in that, in order to increase and stabilize the transmittance of the device in the process of controlling the polarization plane of the radiation in the middle IR region, the output optical element made in the form of a mirror, the Brewster angle of the material of the mirrors — P g 80 in the working spectral region, and the angle of incidence of the radiation. on them tp 0,7 tp p.