Measurement of Particle Vibration Velocity in Air-borne Sound Field with the Photon Correlation Method
LI Liang-jie1, HE Long-biao2, WANG Xue-jing1
1.College of Information & Technology, Beijing University of Chemical Technology, Beijing 100029, China;
2. National Institute of Metrology, Beijing 100029, China
Abstract:The particle vibration velocity is an important parameter to evaluate the characteristics of the sound field. Photoelectric signal of scatter light was obtained laser Doppler velocimetry at different sound pressure level in plane wave sound field. And the Doppler signal was processed by autocorrelation method, the velocity can be calculated based on the time of characteristic values ??of the correlation function and compared with that of microphone. Furthermore, on the basis of the autocorrelation algorithm, the difference which caused by the ratio of the original signal frequency offset and the Doppler frequency is not an integer multiple was reduced by the interpolation method. The results demonstrate that the photon correlation method is able to obtain particle vibration velocity of the sound field. and results show good agreement with that measured by microphone, interpolation method is conducive to decreasing the deviation when velocity is large relatively。The deviation of the two methods is less than 0.7dB at the sound pressure level from 96 dB to 110 dB.
李良杰, 何龙标, 王雪晶. 光子相关法测量空气声场中的粒子振速[J]. 计量学报, 2014, 35(4): 363-367.
LI Liang-jie, HE Long-biao, WANG Xue-jing. Measurement of Particle Vibration Velocity in Air-borne Sound Field with the Photon Correlation Method. Acta Metrologica Sinica, 2014, 35(4): 363-367.
[1] 沈熊.激光多普勒测速技术及应用[M]. 北京: 清华大学出版社, 2004,1-7.
[2] 张艳艳,巩轲,何淑芳,等. 激光多普勒测速技术进展 [J]. 激光与红外, 2010, 40 (11) :1157-1162.
[3] Taylor K J. Absolute measurement of acoustic particle velocity [J]. J Acoust Soc Am,1976, 59(3):691-694.
[4] Taylor K J. Absolute calibration of microphones by a laser Doppler technique [J]. J Acoust Soc Am, 1981,70(4):939-945.
[5] Li Liang-jie, He Long-biao, Wang Xue- jing, et al. The Realization for Sound Pressure Unit Using Laser Doppler Anemometry in a Travelling Wave Tube[J]. Applied Mechanics and Materials, 2013,239-240: 57-64.
[6] Greated C A. Measurement of acoustic velocity fields[J]. Strain, 1986,22(1):21-24.
[7] MacGillivray T J, Campbell D M, Greated C A, et al. The development of a microphone calibration technique using Laser Doppler anemometry [J]. Acustica, 2002,88(1):135-141.
[8] Sharpe J P, Greated C A. A stochastic model for photon correlation measurements in Sound fields[J]. Journal of Physics D: Applied Physics, 1989,22 (10):1429-1433.
[9] Koukoulas T, Theobalda P, et al. Towards a future primary method for microphone calibration: Optical measurement of acoustic velocity in low seeding conditions[J]. Optics and lasers in engineering, 2008,46(11): 791-796.
[10] Durrani T S, Greated C A. Laser systems in flow measurements[M]. New York : Plenum Press, 1977,166.