SU533257A1 - Laser - Google Patents

Abstract

Lasers, comprising an active element, birefringent guide prism and the electro-optic modulation insulating element sequentially arranged on the same axis in the main resonator formed by two reflectors, the selective elements and a photodetector, whose output via an electronic device connected to the electro-optic modulation insulating member, wherein that, in order to increase the power of the generated single-mode radiation, a reflector was introduced into it, which, with the reflectors of the main resonator, added itelny resonator optically coupled to the main resonator guide through the birefringent prism, wherein the selecting element are located in the cavity and the photodetector output poslednego.S (ts9 LyuelO9 CO CO • ^

Description

1 The invention relates to the field of quantum electronics and can be used as a pulsed source of coherent narrow-band optical radiation in light-emitting, multi-exposure holography, long-range and other areas where optical quantum generators (LCG) are required, which are characterized by the minimum width of the spectrum of the generated radiation. In an active Q-switched laser, a giant pulse is formed directly from wide-band spontaneous noise, and the monopulse formation period, determined by its leading edge, is relatively small and does not allow for sufficiently strong discrimination of oscillation types and narrowing of the spectrum. Therefore, a laser with active modulation of losses, in which the narrowing of the radiation spectrum is achieved with the help of an artificial increase in the formation time of a generation pulse at the initial stage due to various ways of switching on the quality factor of the resonator, has become quite widespread. Devices are known in which this is achieved by slowly switching on the quality factor Qj. The main disadvantage of a laser with a slow Q-switch is a significant deterioration of the energy parameters of the radiation, caused by the low loss turn-off speed in the resonator. Laser devices are also known in which an increase in the time of generation of the generation pulse is achieved by the stepwise switching on of the quality factor 2). Of the known devices, the closest is an LC 3, which creates coherent radiation in the form of giant pulses, which contains an active element, a birefringent prism and an electro-optical modulation element, successively placed on the same axis in a resonator formed by two reflectors selective elements and a photodetector , the output of which through an electronic device is connected to an electro-optical modulation element. With the help of this device, a more extended impulse formation time is achieved. generation and, as a result, increase the efficiency of mode selection. Hajra4He in the resonator of a selective selection element 5, such as a diaphragm and an inclined reference standard, leads to additional losses, which reduces the output power of the laser, its efficiency, and the spectral brightness of the radiation. The aim of the invention is to provide an electro-optical shutter laser device with a higher value of the power of the generated single-mode radiation. The goal is achieved by the introduction of an auxiliary reflector in the device, which, together with the reflectors of the main laser cavity, forms an additional resonator for emitting the active body at the initial stage with the electro-optical shutter turned on, and all selective elements are moved to the additional resonator beyond the main one. The additional and main resonators are optically coupled through a birefringent prism, and the photodetector is switched on at the output of the additional resonator. In the drawing is a hay coil diagram of the proposed device. The device contains a quarter-wave electro-optical shutter consisting of a quarter-wave modulation element 1 and a birefringent prism 2, which together with the active element 3 are placed into the main resonator formed by the output reflector 4 and the reflector 5 with a 100% reflection. The auxiliary reflector 6, with the electro-optical shutter turned off (i.e., at a quarter-wave voltage on the electrodes of the electro-optical modulation element), together with the reflectors of the main resonator, forms an additional resonator, in which the selector elements are placed: a diaphragm 7 and a covered inclined standard 8. The photodetector signal 9 An electronic device 10 is triggered, generating a control pulse for the electro-optical modulation element. The principle of the device is as follows. Through the birefringent prism 2 only a horizontal component of the radiation of the active body passes.

Claims (1)

OPTICAL QUANTUM GENERATOR containing an active element, a birefringent prism and an electro-optical modulation element, sequentially placed on the same axis in the main resonator formed by two reflectors, selector elements and a photodetector, the output of which through an electronic device is connected to an electro-optical modulation element, characterized in that, in order to increase the power of the generated single-mode radiation, a reflector was introduced into it, forming additional tional resonator optically coupled to the main resonator through a birefringent prism, wherein the selecting element are located in the cavity and the photodetector at the output of the latter.