Experimental evaluation of enhanced generation of ultrasonic waves using an array of laser sources

Abstract

An array of ten pulsed Nd: YAG lasers was constructed in order to study the effects of generating ultrasound with an array of laser sources. The laser system permitted the spatial and temporal control of the firing of the individual lasers in the array necessary for the production of both narrow-band ultrasonic signals and phased array single pulses. The increase in sensitivity of a laser ultrasonic system associated with the generation of narrow-band and phased array acoustic waves is discussed theoretically and verified experimentally for surface and bulk wave generation. The ultrasonic signals were generated in aluminium samples of various thicknesses and with source laser power densities consistent with generation in the thermoelastic regime, thus causing no damage to the surface of the specimens. The signals were detected using a path stabilized Michelson interferometer. In the narrow-band case, the waveforms were digitally filtered in order to take advantage of the reduced spectral range of the generated acoustic energy. A significant increase in the sensitivity of the laser ultrasonic system, consistent with theoretical predictions, was observed in both the narrow-band and phased array cases.