SU921334A1 - Polarized radiation switching divider - Google Patents

Abstract

A POLARIZED RADIATION SWITCH, containing a source of radiated VO radiation, a birefringent crystal, the optical axis of which does not coincide with the direction of radiation passing through it, characterized in that, in order to enable a linear path, it is linear. by changing the division ratio and high-frequency switching of the divided beams, the electro-optical element and the cylindrical lens, installed between source and the crystal which is formed as a triangular straight prism mounted rotatably about an axis parallel to its lateral face m. Since CO

Description

The invention relates to the field of applied optics, in particular, devices for dividing light beams into a given number of elementary beams and their switching, and can be used in optical communication systems, as well as in technology, medicine and biology. Devices are known for deflecting optical beams based on a change in the refractive index of the working substance - electro-optical and acousto-optical deflectors fl. These devices deflect a beam from one position to another. However, they can only serve to sequentially switch a beam from one subscriber to another and do not allow a large number of subscribers to switch in parallel. A polarizer divider switch is known and transmitted, and containing a source of polarized radiation, a birefringent crystal, the optical axis of which does not coincide with the direction of radiation passing through it, and the polarizer-analysis. In this case, the crystal is made in the form of two direct prisms, having right angular triangles at the base and facing each other with hypotenuse faces. The optical axes of the prisms are oriented at a right angle to each other, and the axis of one of them is perpendicular to its base. The elliptically polarized beam from the source, falling normally on the input Kaie-fHyio face of the first prism, extends from certain sections of the second prism linearly to the field The orientation of the planes of polarization is the same for portions located at the same distance from one another. An analyzer-analyzer installed in an appropriate way transmits radiation with a polarization plane parallel to its axis, and delays the radiation with a perpendicular orientation of the polarization plane. Thus, the initial beam is divided into composite ones that are distant from each other by the same. distance The rotation of the polarizer-analyzer provides the switching of these beams. The disadvantage of this design is the impossibility of working with linearly polarized laser radiation, the lack of control over the multiplicity of division of the initial beam into composite components and the switching frequency of these beams due to the mechanical method of its implementation. The purpose of the invention is to provide the possibility of converting a linearly polarized laser beam with a change in the division ratio and high-frequency switching of the separated beams. The goal is achieved by introducing an electro-optical element and a cylindrical lens between the polarizing radiation divider containing a polarized radiation source, a birefringent crystal whose optical axis does not coincide with the direction of radiation passing through it, and the analyzer polarizer. a source and a crystal, which is made in the form of a triangular straight prism, installed with the possibility of rotation around an axis parallel to its lateral facet. em device. It consists of a laser 1, which is a source of linearly polarized radiation, an electro-optical element 2, which, when a voltage is applied to it, rotates the plane of polarization of the transmitted radiation by 90 °, a cylindrical lens 3, expanding the beam in a plane, a triangular direct prism 4, made of a birefringent crystal, the optical axis of which does not coincide with the direction of the radiation. through it, and installed rotatably around an axis 5 parallel to the lateral face of the prism, and and a polarizer analyzer 6, made, for example, in the form of a polaroid film. Divider switch works as follows. The linearly polarized beam from laser 1 passes through the electro-optical element 2 without changing the orientation of its polarization plane in the absence of voltage on element 2 and expands in the plane of the cylindrical lens 3. At the output of the prism 4, due to the different optical length of the path passing through it rays form two groups of beams, the polarization planes of which are mutually perpendicular. In this case, beams with the same orientation of the planes of polarization are equally distant from each other. An appropriately-established polarizer-analyzer b-passes beams with polarization planes parallel to its axis, and delays beams with a perpendicular orientation of the polarization planes. Thus, division of the initial beam into composite ones, spaced at equal distances from each other, is carried out. The control of short division is carried out by rotating the prism 4 around the axis 5 by changing the optical length of the beam path in the prism 4. The switching of the separated beams is provided by applying voltage to the electro-optical element 2,

moreover, the switching frequency is determined by the supply frequency of this voltage and, therefore, can be quite high.

Thus, the use of the invention makes it possible to transform a laser beam with a change in the brevity of its division from units to several tens of times and with a frequency of 1 mutation of separated beams of 1.5 GHz.

Claims (1)

A POLARIZED RADIATION DIVIDER-SWITCH containing a source of polarized radiation, a birefringent crystal, whose optical axis does not coincide with the direction of radiation passing through it, and a polarizer-analyzer, characterized in that, in order to enable the conversion of a linearly polarized laser beam with a change in the multiplicity of its division and high-frequency switching of the separated beams, an electro-optical element and a cylindrical lens are installed between the and the source and the crystal, which is made in the form of a triangular straight prism mounted with the possibility of rotation around an axis parallel to its side faces. ω s • and * 00 ° 4 * 92'1334