Hydrodynamic simulations of metal ablation by femtosecond laser irradiation
Abstract
Ablation of Cu and Al targets has been performed with 170 fs laser pulses in the intensity range of 1012-1014 W/cm2. We compare the measured removal depth with 1D hydrodynamic simulations. The electron-ion temperature decoupling is taken into account using the standard "two-temperature model". The influence of the early heat transfer by electronic thermal conduction on hydrodynamic material expansion and mechanical behavior is investigated. A good agreement between experimental and numerical matter ablation rates shows the importance of including solid-to-vapor evolution of the metal in the current modeling of the laser matter interaction.
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