Add to ORKGInternational audienceAblation of Cu and Al targets has been performed with 170 fs laser pulses in the intensity range of 10^12-10^14 W/cm^2. 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
International audienceThe past decade has witnessed a considerable development in the field of ultra...
Metal ablation taking into account the hydrodynamics of a dense ablated material with ion temperatur...
Metal ablation taking into account the hydrodynamics of a dense ablated material with ion temperatur...
International audienceAblation of Cu and Al targets has been performed with 170 fs laser pulses in t...
International audienceAblation of Cu and Al targets has been performed with 170 fs laser pulses in t...
International audienceAblation of metal targets by femtosecond laser pulses is studied numerically b...
International audienceAblation of metal targets by femtosecond laser pulses is studied numerically b...
International audienceAblation of metal targets by femtosecond laser pulses is studied numerically b...
Ablation of metal targets by femtosecond laser pulses is studied numerically by using a one-dimensio...
Molecular Dynamics reveals a detailed insight into the material processes. Among various available c...
International audienceWe present one-dimensional numerical simulations describing the behavior of so...
International audienceWe present one-dimensional numerical simulations describing the behavior of so...
International audienceWe present one-dimensional numerical simulations describing the behavior of so...
In this article an improved mathematical model for a laser metal ablation by ultra-short duration la...
International audienceThe past decade has witnessed a considerable development in the field of ultra...
International audienceThe past decade has witnessed a considerable development in the field of ultra...
Metal ablation taking into account the hydrodynamics of a dense ablated material with ion temperatur...
Metal ablation taking into account the hydrodynamics of a dense ablated material with ion temperatur...
International audienceAblation of Cu and Al targets has been performed with 170 fs laser pulses in t...
International audienceAblation of Cu and Al targets has been performed with 170 fs laser pulses in t...
International audienceAblation of metal targets by femtosecond laser pulses is studied numerically b...
International audienceAblation of metal targets by femtosecond laser pulses is studied numerically b...
International audienceAblation of metal targets by femtosecond laser pulses is studied numerically b...
Ablation of metal targets by femtosecond laser pulses is studied numerically by using a one-dimensio...
Molecular Dynamics reveals a detailed insight into the material processes. Among various available c...
International audienceWe present one-dimensional numerical simulations describing the behavior of so...
International audienceWe present one-dimensional numerical simulations describing the behavior of so...
International audienceWe present one-dimensional numerical simulations describing the behavior of so...
In this article an improved mathematical model for a laser metal ablation by ultra-short duration la...
International audienceThe past decade has witnessed a considerable development in the field of ultra...
International audienceThe past decade has witnessed a considerable development in the field of ultra...
Metal ablation taking into account the hydrodynamics of a dense ablated material with ion temperatur...
Metal ablation taking into account the hydrodynamics of a dense ablated material with ion temperatur...