RU1572178C - Method of measuring linear displacement - Google Patents

Abstract

FIELD: test-and-measurement technology. SUBSTANCE: method involves discriminating a difference frequency signal of two modes of two-resonator laser system one frequency of which is modulated by a displacement being measured; modulating a Q-factor of the laser system by a delayed difference frequency signal, mode locking in second order synchronism occurring. Thus difference frequency fluctuations are suppressed. EFFECT: enhanced accuracy due to suppressing difference frequency fluctuations. 1 dwg

Description

 The invention relates to instrumentation and can be used to measure movements.

 The purpose of the invention is improving accuracy by suppressing fluctuations of the difference frequency.

 The drawing shows a structural diagram of a device that implements the method.

 The device consists of optically coupled mirrors 1, intended for mechanical communication with the controlled object, a translucent mirror 2, a semiconductor active element 3, an output mirror 4 and a photodetector 5, serially connected to a broadband amplifier 6, the input of which is connected to the output of the photodetector 5, and a delay line 7 the output of which is connected to the modulating input of element 3, and a digital frequency meter 8, whose input is connected to the output of amplifier 6.

 The method is as follows.

In a two-cavity laser system consisting of element 3 and mirrors 1, 2, and 4, laser radiation of two modes is generated at optical frequencies ν ₁ and ν ₂ . In this case, the signal ω = ν ₂ - ν _{1 is} present at the output of the photodetector, which is proportional to the measured displacement of mirror 1. This signal is amplified by amplifier 6, delayed in line 7 by time τ, and applied to element 3, modulating the pump level. In this case, the modes are mutually locked into the second-order synchronous mode. With this mode of generation, the frequency fluctuations of the modes of a three-mirror resonator with characteristic times τ _rl <τ are _suppressed . (56) Zastrogin Yu. R. Precision measurements of motion parameters using a laser. - M.: mechanical engineering, 1986, p. 272.

Claims (1)

 METHOD FOR MEASURING LINEAR MOVEMENTS, which consists in the fact that they excite the generation of laser radiation in two optically coupled resonators while providing generation along one longitudinal mode in each resonator, proportionally convert the linear displacement into a change in the frequency of one of the modes, convert the laser radiation power into an electrical signal, and the linear displacement value is determined by changing the frequency of the electrical signal, characterized in that, in order to improve accuracy, the electrical signal is delayed and modulate the delayed quality factor of the resonators.

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