Abstract
Ultrashort laser pulse transfers metal into a two-temperature warm dense matter state and triggers a chain of hydrodynamic and kinetic processes—melting, expansion, stretching, creation of tensile stress and transition into metastable state. We study the response of aluminum film deposited on a glass substrate to irradiation by a pump laser pulse transmitted through glass. Several films with thicknesses from 350 to 1200 nm have been investigated. The smallest thickness is of the order of the heating depth dT∼100 nm in Al. The dT-layer and the free rear side of the film are coupled through pressure waves propagating between them. Therefore, the processes within dT-layer affects the time dependent displacement Δxrear(t) of the rear surface. We compare simulated and experimental dependencies Δxrear(t) obtained by the pump–probe technique. It allows us to define a thickness of molten Al layer and explore the two-temperature processes occurring inside the heated layer.
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