SU486615A1 - Dual frequency laser - Google Patents

Description

The invention relates to the area of the lattice electric socket.

Two-frequency lasers with active elements are known, such as: sham; e to obtain coherent and-ray-sum and difference frequency in a nonlinear element located either inside or outside the resonator Dl; this (| x |) eclipse process of mixing the polarization of ischemic rays must be orthogonal; However, lasers, in which polarization — where necessary, are complex, are complex in design; in the known simple in design dzufretotnye lasers, radiation polarization is not controlled, and therefore the radiation is not mixed according to the actualism itself. .

The aim of the invention is to increase the accuracy of misalignment of the mutual orthogonal plane of polarization of the output of the generating frequency.

To do this, one of the reflectors is made in the form of a polarization full-wave full-time reflector in such a way that the plane

The polarization bones of the two frequencies in the resonator coincide, and the other reflector is made on a substrate of optically active material with an optical axis parallel to the axis of the resonator and the thickness providing the difference of the angles of rotation of the field planes, radiation ejection, 90 °. The polarization prism of the total internal reflections1 is made of birefringent material in the form of, for example, a triple clique, a triangular prism, the entrance face of which is perpendicular to the axis of the resonator, reflecting tilted to the input at such an angle that the condition of the full external reflection on the frequency is x generation is performed only for the beam polarized in the plane of the pas, or in the plane perpendicular to the plane of incidence, and the prism opposite to the input rpaHii is a right angle with the reflecting face,

The advantage of the device is that in it, thanks to the applied prism, the detector, it is possible to control the radiation pattern and the switching speed of the quality factor in modulating the radiation.

The invention is illustrated in the drawing, where

1- prism polarizer (o, b - polarizing faces, f - tilt angle of the input face to polarizing), 2 and 3 - active elements, 4 - output reflector (crystal plate), 5 - output laser beam.

The device works as follows. When the active elements are excited.

2 and 3 generating two different wavelengths (for example, neodymium glass and ruby) the light emitted by them is reflected by prism 1, amplified by rods and exits through the output reflector 4. Part of the radiation reflected by the output reflector returns to the active elements, is amplified by them, and repeats.

The prism of the full internal reflection ш 1 is made of a birefringent material, and the angle of inclination of the input face f, equal to the angle of the drop and the beam on the reflecting Q and Ь g, is made so that the condition of the full synergy is only for the beam of one polarization . In this case, Szst falling on the output reflector; will be polarized, since the generation is diffused. For many passes of light through the resonator, and even small losses for another polarization, experiencing partial loss, it is enough to generate it. After passing through the crystal lane 4, the beam polarization density is rotated by an angle depending on the length of 1 Ul. The plate is made of a blux refracting material and its thickness is chosen in such a way that the difference in the angles of rotation

The bones at the rigging for the two laser-generated frequencies are equal to 90 °. In this case, the rays of different wavelengths will be polarized mutually perpendicular.

Claims (2)

1. A two-frequency laser containing two active elements located between the reflectors, characterized in that, in order to increase the accuracy of tuning the mutual orthogonality of the polarization planes of the output radiation of generating frequencies, one of the reflectors is made in the form of a parametric prism of total internal reflection in such a way that the polarization planes of the radiation of both frequencies in the cavity coincide, and the other reflector is made on a substrate of optically active material with an optical axis parallel to the axis of the resonator torus, and thickness, providing the difference of angles of rotation of polarization planes floor radiation equal to 90. 2. A laser device according to claim 1, wherein the polarization prism of full internal reflection is made of a birefringent material in the form of, for example, a three to four prism, the entrance face of which is perpendicular the resonator axis, which is reflected to the input axis at such an angle that the condition of total internal reflection at generation frequencies is fulfilled only for a beam polarized in the plane of incidence or in the plane perpendicular to the plane of incidence, and opposite to the input face of the prism is reflective face right my corner.