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Measurement of acoustic field radiated by low frequency power ultrasonic transducer with laser-interferometer 被引量:2
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作者 QIAN Menglu GAO Wen HU Wenxiang (Institute of Acoustics, Tongji University Shanghai 200092) 《Chinese Journal of Acoustics》 2000年第4期299-308,共10页
Based on the piezo-optic effect of medium, the refractive index of medium is the function of its density, and so it's also the function of acoustic pressure. Therefore, acoustic pressure in the optical path everyw... Based on the piezo-optic effect of medium, the refractive index of medium is the function of its density, and so it's also the function of acoustic pressure. Therefore, acoustic pressure in the optical path everywhere can be determined absolutely by laser-interferometric technique and relative distribution of pressure in the middle and far acoustic field, which can be obtained from theory or experiment respectively. Theory and experiment of measurement of pressure in acoustic field with laser-interferometer are introduced. Distribution of pressure radiated by a power ultrasonic transducer is determined by laser interferometric technique. The theoretical and experimental results are in good agreement. The receiving sensitivity of a PVDF (Polyvinylidene fluoride) transducer in free field is also calibrated absolutely due to above results and its sensitivity is -118.5 dB. 展开更多
关键词 measurement of acoustic field radiated by low frequency power ultrasonic transducer with laser-interferometer
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DFB fiber laser sensor for simultaneous measurement of acoustic and magnetic fields
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作者 Rui Ma Wentao Zhang +1 位作者 Wenzhu Huang Fang Li 《Chinese Optics Letters》 SCIE EI CAS CSCD 2018年第6期24-28,共5页
A novel distributed feedback(DFB) fiber laser sensor, which can measure acoustic and magnetic fields simultaneously, is proposed. The magnetic field can be measured by detecting the change of resonant frequency of t... A novel distributed feedback(DFB) fiber laser sensor, which can measure acoustic and magnetic fields simultaneously, is proposed. The magnetic field can be measured by detecting the change of resonant frequency of the fiber laser, and the acoustic pressure can be measured by detecting the phase shift of the fiber laser. Both of the signals can be simultaneously demodulated in the frequency domain without affecting each other. Experimental studies show that the acoustic pressure sensitivity of this sensor is about-130 d B(0 dB re 1 pm∕μPa) and the sensor has a good linearity with a magnetic field sensitivity of 0.57 Hz∕mT. 展开更多
关键词 LENGTH DFB fiber laser sensor for simultaneous measurement of acoustic and magnetic fields
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