Laser Doppler vibrometry based on self-mixing effect

Abstract In this paper, a simple, compact and low cost laser Doppler vibrometer is presented. It is simply composed of a laser diode (9 mm in diameter, 2 g of weight, emitting at 825 nm) and by a two-lens optical system designed to focus the laser radiation on the vibrating target. This sensor can measure target velocity. The working principle is based on the self-mixing effect that occurs in a semiconductor laser diode when the emitted radiation is back reflected toward the cavity and then re-introduced inside. The target velocity is calculated measuring the frequency of the peak of the spectrum of the signal generated by a photodiode mounted on the back facet of the laser diode. In this article, the design and the realisation of the vibrometer is reported. The self-mixing vibrometer has been calibrated in the range 0–300 mm/s, using a rotating disk covered with white paper. The effect of the angle of measurement and target distance are reported. Finally, the sensor has been compared with a commercial laser Doppler vibrometer using a vibrating surface as a target.

[1]  P J de Groot,et al.  Backscatter-modulation velocimetry with an external-cavity laser diode. , 1989, Optics letters.

[2]  L. Drain The Laser Doppler Technique , 1980 .

[3]  Lorenzo Scalise,et al.  Fault detection for quality control of household appliances by non-invasive laser Doppler technique and likelihood classifier , 1999 .

[4]  A. L. Weijers,et al.  Fiber-coupled self-mixing diode-laser Doppler velocimeter: technical aspects and flow velocity profile disturbances in water and blood flows. , 1994, Applied optics.

[5]  J H Churnside Signal-to-noise in a backscatter-modulated Doppler velocimeter. , 1984, Applied optics.

[6]  Mustafa Cetintas,et al.  Optical feedback in diode laser for sound-pressure measurement , 1998, Other Conferences.

[7]  K. Petermann Laser Diode Modulation and Noise , 1988 .

[8]  Gian Marco Revel,et al.  Vibration measurements for diagnosis of structural defects on human teeth , 2000 .

[9]  Gian Marco Revel,et al.  Development of measurement and processing techniques based on laser vibrometer and neural networks for quality control of loud speakers , 1996 .

[10]  E T Shimizu Directional discrimination in the self-mixing type laser Doppler velocimeter. , 1987, Applied optics.

[11]  M J Rudd A laser Doppler velocimeter employing the laser as a mixer-oscillator , 1968 .

[12]  Gian Marco Revel,et al.  Laser Doppler vibrometry : A review of advances and applications , 1998 .

[13]  M. H. Koelink,et al.  Laser Doppler velocimeter based on the self-mixing effect in a fiber-coupled semiconductor laser: theory. , 1992, Applied optics.

[14]  Lorenzo Scalise,et al.  Recent advances in self-mixing laser-Doppler velocimetry: use as an in-vivo blood flow meter , 2000, Photonics West - Biomedical Optics.