SU1656356A1 - Method of measuring acoustic pressure fluctuations - Google Patents

Abstract

This invention relates to methods for measuring acoustic pressure fluctuations using optical media. The purpose of the invention, which is to improve the accuracy and simplify the measurement process, is achieved by using a multimode fiber 4 as a pressure sensor, the emission speckle pattern of the output of which is analyzed using an amplitude-spatial optical filter 7. The amplitude-spatial optical filter 7 is used chalcogenide glass film. 1 il.

Description

The invention relates to methods for measuring fluctuations in acoustic pressure using optical means.

The purpose of the invention is to improve the accuracy and simplification of the measurement process.

The drawing shows one embodiment of a device for implementing the proposed method.

The implementation of the method is as follows.

Coherent optical radiation from the laser 1 after the neutral attenuating filter 2 using a micro lens 3 is introduced into the end of the multimode fiber 4, which is part of the fiber optic sensor 5. The input and output ends of the optical fiber 4 are rigidly fixed. The radiation coming out of the optical fiber 4 is collimated with a micro-lens 6 and sent to a film of chalcogenide glass 7. on which the amplitude-spatial legs of the optical filter are formed at a nominal pressure. To do this, at a given constant nominal pressure in the indicated optical scheme, the chalcogenide glass film is illuminated for a time t at a radiation intensity at the fiber output equal to 1 ₀ . Chalcogenide glass films can be obtained, for example, by spraying compounds of arsenic with selenium on glass or lavsan substrates.

After the amplitude-spatial optical filter is formed on the chalcogenide glass film, the process of direct measurement of acoustic pressure fluctuations is carried out. The effect of acoustic pressure on the multimode optical fiber 4, which is part of the fiber-optic pressure sensor 5, leads to a rearrangement of the speckle pattern of the radiation at the output of the optical fiber 4 relative to the stationary speckle pattern recorded on the chalcogenide glass filter 7. Radiation transmitted through the amplitude-spatial filter 7 using a lens 8 focus on the photodetector 9. As a result, a time-varying signal appears in the output of the photodetector 9, proportional to the fluctuation of the acoustic pressure. The specified signal is registered by the registration circuit 10.

Direct measurements of fluctuations in acoustic pressure occur within a certain time t. In order to prevent a change in the optical properties of the amplitude-spatial filter based on chalcogenide glass films during measurements, which would distort the actual result, the value of the optical radiation intensity during the measurement of acoustic pressure fluctuations (I) must satisfy the relation

The required value of the intensity of the optical radiation is set, for example, by replacing the attenuating neutral filter 2.

The proposed method is characterized by increased accuracy and simplicity of the process of measuring fluctuations in acoustic pressure.

Claims (1)

Claim A method for measuring fluctuations in acoustic pressure, at which coherent optical radiation is first introduced into the optical fiber at nominal pressure, collimated and directed to a photosensitive film on which an optical amplitude-spatial filter is formed, then an acoustic wave is applied to the optical fiber and the optical signal is recorded at the amplitude-spatial output a filter, I distinguish it by the fact that, in order to increase the accuracy and simplify the measurement process, as a photosensitive film use a film of chalcogenide glass, and before the action of an acoustic wave on the fiber, the intensity of the optical radiation is changed so that the ratio I ’t Ιο to, where Io. to - respectively, the intensity and duration of the optical radiation during the formation of the amplitude-spatial filter on the film of chalcogenide glass; I, t are, respectively, the intensity and duration of the action of optical radiation in the process of measuring fluctuations in acoustic pressure.