Title :
Cavitation and shock waves in water, stimulated by laser filament
Author :
Potemkin, F.V. ; Mareev, E.I.
Author_Institution :
Fac. of Phys., Moscow State Univ., Moscow, Russia
fDate :
June 30 2014-July 4 2014
Abstract :
Using shadow photography technique we have observed shock acoustic wave from optical breakdown, excited in water by tightly focused Cr:Forsterite femtosecond laser beam, and have found two different regimes of shock wave generation by varying only the energy of laser pulse. At low energies a single spherical shock wave and cavitation bubble is generated from laser beam waist, and shock wave radius tends to saturation with energy increasing. At higher energies long laser filament in water is fired, that leads to the cylindrical shock wave generation and cavitation bubble in every nonlinear focus. The diameter of cavitation bubble depends on the distance from the first nonlinear focus. From shadow pictures we also estimated maximal velocity in the shock wave front of 3200±150m/s and pressure of 240±30 MPa.
Keywords :
bubbles; cavitation; optical focusing; optical saturation; plasma diagnostics; plasma light propagation; plasma production by laser; plasma shock waves; solid lasers; water; cavitation bubble diameter; cylindrical shock wave generation; first nonlinear focus; focused Cr:Forsterite femtosecond laser beam; laser beam waist; laser pulse energy; long laser filament; maximal velocity; optical breakdown; optical saturation; shadow photography technique; shock acoustic wave; shock wave front; shock wave radius; single spherical shock wave; water; Electric shock; Laser applications; Lenses; Plasmas; Pump lasers; Shock waves; filamentation; laser-induced plasma; laser-induced shock waves and cavitation;
Conference_Titel :
Laser Optics, 2014 International Conference
Conference_Location :
Saint Petersburg
Print_ISBN :
978-1-4799-3884-1
DOI :
10.1109/LO.2014.6886217
