Add to ORKGExpansion of ablation plumes created by intense ultrashort lasers is determined by various complicated physical processes which have very different spatial and time scales. Since complete simulation by one model is practically impossible, the authors suggest using two models describing initial and final stages that can be matched at an intermediate time. The proposed modeling procedure connects laser parameters to plume properties far away from the ablation spot. Laser material interaction and beginning of the expansion are simulated with a one-dimensional hydrodynamics code and the final stage is modeled using an analytical solution for an expanding three-dimensional ellipsoidal gas cloud
International audienceNumerical modelling of non-steady state laser-ablated flows is presented. Two ...
Rapid transformations through the liquid and vapor phases induced by laser-solid interactions are de...
The expansion of a plume generated during laser ablation is studied with the Direct Simulation Monte...
International audienceThe physical phenomena involved in the interaction of a laser-generated plasma...
An annealing model is extended to treat the vaporization process, and a hydrodynamic model describes...
International audienceA hybrid model is developed to study the dynamics of laser plume expansion in ...
In this paper a 3-D transient model for laser ablation modeling with plasma plume characterization i...
In this paper a 3-D transient model for laser ablation modelling with plasma plume characterization ...
An annealing model is extended to treat the vaporization process, and a hydrodynamic model describes...
International audienceAblation of metal targets by femtosecond laser pulses is studied numerically b...
Various physics and computational approaches have been developed to globally characterize phenomena ...
International audienceNumerical modeling is used to investigate the physical mechanisms of the inter...
Several physics and computational approaches have been developed to globally characterize phenomena ...
International audienceNumerical modelling of non-steady state laser-ablated flows is presented. Two ...
Rapid transformations through the liquid and vapor phases induced by laser-solid interactions are de...
The expansion of a plume generated during laser ablation is studied with the Direct Simulation Monte...
International audienceThe physical phenomena involved in the interaction of a laser-generated plasma...
An annealing model is extended to treat the vaporization process, and a hydrodynamic model describes...
International audienceA hybrid model is developed to study the dynamics of laser plume expansion in ...
In this paper a 3-D transient model for laser ablation modeling with plasma plume characterization i...
In this paper a 3-D transient model for laser ablation modelling with plasma plume characterization ...
An annealing model is extended to treat the vaporization process, and a hydrodynamic model describes...
International audienceAblation of metal targets by femtosecond laser pulses is studied numerically b...
Various physics and computational approaches have been developed to globally characterize phenomena ...
International audienceNumerical modeling is used to investigate the physical mechanisms of the inter...
Several physics and computational approaches have been developed to globally characterize phenomena ...
International audienceNumerical modelling of non-steady state laser-ablated flows is presented. Two ...
Rapid transformations through the liquid and vapor phases induced by laser-solid interactions are de...
The expansion of a plume generated during laser ablation is studied with the Direct Simulation Monte...