Chonghua Zhou scite author profile

A fiber-optic microphone based on a combination of Fabry–Perot interferometry and intensity modulation is described. The combination technique eliminates fringe counting ambiguity and provides a wide range of measurement of optical phase change without any complicated electromechanical devices. The experimental data are compared with the result of a theoretical analysis. The microphone has a flat frequency response from 20 Hz to 3 kHz with a high sensitivity of 1.6 rad/Pa. The dynamic range is more than 65 dB. The frequency response and sensitivity can be modulated by changing the size and surface tension of the membrane. The microphone can be easily implemented and can be made very small.

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Fiber-optic microphone based on combination of Fabry–Perot interferometry and intensity modulation

Zhou

Letcher

Shukla

1995

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A fiber-optic microphone based on a combination of Fabry–Perot interferometry and intensity modulation is described. The combination technique eliminates fringe counting ambiguity and provides a wide range measurement of optical phase change without any complicated electromechanical devices. The experimental data are compared with the result of a theoretical analysis. The microphone has a flat frequency response from 20 Hz to 10 kHz with a high sensitivity of 1.6 rad/Pa. The dynamic range is more than 65 dB. The frequency response and sensitivity can be modulated by changing the size and surface tension of the membrane. The microphone can be easily implemented and can be made very small. [Work supported by NSF.]

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Fiber-optic acoustic sensor for nondestructive evaluation

Narendran¹,

Zhou²,

Letcher³

et al. 1995

Optics and Lasers in Engineering

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Chonghua Zhou

A compact fiber-optic immunosensor for Salmonella based on evanescent wave excitation

Acoustic standing-wave enhancement of a fiber-optic Salmonella biosensor

Fiber-optic microphone based on a combination of Fabry–Perot interferometry and intensity modulation

Fiber-optic microphone based on combination of Fabry–Perot interferometry and intensity modulation

Fiber-optic acoustic sensor for nondestructive evaluation

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