SU778493A1 - Laser accelerometer - Google Patents

Description

(54) LASER ACCELEROMETER

: one

The invention relates to the measurement of motion parameters, in particular to: laser accelerometers.

A laser device for measuring the acceleration of moving objects is known, which contains an intracavity sensitive element of isotropic material with a control mass attached to it 1. The operation of the device is based on controlling the frequency splitting between the generated laser modes using the photoelastic effect that occurs in the sensitive element during accelerated motion. However, this device has significant errors and a limited range of measurements due to the use of a two-chamber design with an optical partition between the cameras. Parasitic mechanical stresses in the septum, arising from changes in temperature, and residual stresses, can significantly exceed the useful effect in the sensing element. In this case, the axis of the induced optical anisotropy takes up a random direction in space that does not coincide with the axis of sensitivity.

devices. In addition, this device does not respond to the acceleration sign. The closest to the proposed technical essence and the achieved result is a device / containing an intracavity sensitive element of an isotropic material with a Mass attached to it. Device

10 is a single-chamber design where it is not necessary to use an optical septum. The recording equipment allows measuring both the magnitude and the sign

15 speed 2.

The drawback of the device is the existence of a significant insensitivity zone, due to the effect of self-synchronization between modes (frequency lock). In addition, the device uses a relatively complicated recording circuit consisting of several optical elements, two photodetectors, and requiring optical beam dilution to measure the sign of acceleration, which reduces reliability and complicates operation.

The purpose of the invention is to expand the measurement range. To achieve

Claims (1)

The claims of inertial mass are the speed of light; ⁷ wavelength; optical cavity length; the value associated with the parameters of the sensitive element; value A laser accelerometer containing a sensing element located inside the resonator, made of isotropic material, loaded with an inertial mass, and a signal recording system, characterized in that, in order to expand the measurement range, two more pairs of plane orthogonal relative to each other are arranged on the sensitive element electrodes parallel to the laser axis, one of which is parallel to the sensitivity axis of the accelerometer.