W. Garen scite author profile

Laser-induced breakdown spectroscopy (LIBS) in liquids using a double-pulse Q-switched Nd:YAG laser system has provided reliable results that give trace detection limits in water. Resonant laser excitation has been added to enhance detection sensitivity. A primary laser pulse (at 532 nm), transmitted via an optical fiber, induces a cavitation bubble and shockwave at a target immersed in a 10 mg l(-1)-100 mg l(-1) indium (In) water suspension. The low-pressure rear of the shockwave induces bubble expansion and a resulting reduction in cavity pressure as it extends away from the target. Shortly before the maximum diameter is expected, a secondary laser pulse (also at 532 nm) is fed into the bubble in order to reduce quenching processes. The plasma field generated is then resonantly excited by a fiber-guided dye laser beam to increase detection selectivity. The resulting resonance fluorescence emission is optically detected and processed by an intensified optical multichannel analyzer system.

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Shock wave emission during the collapse of cavitation bubbles

Garen

Hegedűs

Kai

et al. 2016

Shock Waves

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The effect of high viscosity on compressible and incompressible Rayleigh–Plesset-type bubble models

Hegedűs

Koch

Garen

et al. 2013

International Journal of Heat and Fluid Flow

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W. Garen

Detection of chromium in liquids by laser induced breakdown spectroscopy (LIBS)

Detection of manganese in solution in cavitation bubbles using laser induced breakdown spectroscopy

Resonance fluorescence spectroscopy in laser-induced cavitation bubbles

Shock wave emission during the collapse of cavitation bubbles

The effect of high viscosity on compressible and incompressible Rayleigh–Plesset-type bubble models

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