The application of Laser Doppler Velocimetry (LDV) to the measurement of
normal-to-surface vibration of a solid surface is now established as a technique
complementary to the use of an accelerometer. Several practical systems have been
developed and a number are now commercially available. Each velocirneter relies on
the same principle of operation, namely the detection of a Doppler shift, fD, in
the light scattered from a vibrating target. Fig. 1 shows a typical vibrometer
arrangement. Since the photodetector cannot respond quickly enough to detect the
light frequency directly, scattered light from the vibrating surface is mixed
with a reference beam and heterodyned on the detector surface. In addition, in
order to resolve the sign of the vibration velocity, it is necessary to pre-shift
the reference beam by a known amount, fR, resulting in an optical beat at the
detector of frequency (fR ± fD). An appropriate Doppler signal processor then
demodulates the detector signal to produce a time-resolved analogue of the target
vibration velocity (in the direction of the incident beam). Systems differ in the
method adopted to produce the reference beam frequency shift. Bragg cells [1],
diffraction gratings [2] rotating scattering discs [3] and frequency modulation
of the laser beam itself [4] have all been used successfully... (continues).
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1986
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J. Dainty.
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J. Goodman.
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H. J. Raterink,et al.
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T. H. Wilmshurst,et al.
THE LASER VIBROMETER: A PORTABLE INSTRUMENT
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