Add to ORKGThe transport dynamics of laser-ablated neutral/plasma plumes are of significant interest for film growth by pulsed-laser deposition of materials since the magnitude and kinetic energy of the species arriving at the deposition substrate are key processing parameters. Dynamical calculations of plume propagation in vacuum and in background gas have been performed using particle-in-cell hydrodynamics, continuum gas dynamics, and scattering models. Results from these calculations are presented and compared with experimental observations
In this paper a 3-D transient model for laser ablation modeling with plasma plume characterization i...
Pulsed laser ablation of metals and oxides have been carried out under controlled conditions. Proces...
In this paper a 3-D transient model for laser ablation modelling with plasma plume characterization ...
Various physics and computational approaches have been developed to globally characterize phenomena ...
Several physics and computational approaches have been developed to globally characterize phenomena ...
We investigate the effects of ambient gas on the expansion dynamics of laser plume produced during f...
International audienceThe transport of laser ablated particles through a Maxwell-distributed ambient...
Various physical processes during laser ablation of solids for pulsed-laser deposition (PLD) are stu...
Laser materials processing techniques are expected to have a dramatic impact on materials science an...
The expansion of a plume in a background gas of pressure comparable to that used in pulsed laser dep...
International audienceThe physical phenomena involved in the interaction of a laser-generated plasma...
The plasma plume created during photoablation of various targets by an excimer KrF laser beam is st...
A plume consisting of vapor and ioinized particles of the workpiece is usually formed in many laser ...
Pulsed laser deposition (PLD) is extensively exploited for the growth of metal oxide thin films tha...
An annealing model is extended to treat the vaporization process, and a hydrodynamic model describes...
In this paper a 3-D transient model for laser ablation modeling with plasma plume characterization i...
Pulsed laser ablation of metals and oxides have been carried out under controlled conditions. Proces...
In this paper a 3-D transient model for laser ablation modelling with plasma plume characterization ...
Various physics and computational approaches have been developed to globally characterize phenomena ...
Several physics and computational approaches have been developed to globally characterize phenomena ...
We investigate the effects of ambient gas on the expansion dynamics of laser plume produced during f...
International audienceThe transport of laser ablated particles through a Maxwell-distributed ambient...
Various physical processes during laser ablation of solids for pulsed-laser deposition (PLD) are stu...
Laser materials processing techniques are expected to have a dramatic impact on materials science an...
The expansion of a plume in a background gas of pressure comparable to that used in pulsed laser dep...
International audienceThe physical phenomena involved in the interaction of a laser-generated plasma...
The plasma plume created during photoablation of various targets by an excimer KrF laser beam is st...
A plume consisting of vapor and ioinized particles of the workpiece is usually formed in many laser ...
Pulsed laser deposition (PLD) is extensively exploited for the growth of metal oxide thin films tha...
An annealing model is extended to treat the vaporization process, and a hydrodynamic model describes...
In this paper a 3-D transient model for laser ablation modeling with plasma plume characterization i...
Pulsed laser ablation of metals and oxides have been carried out under controlled conditions. Proces...
In this paper a 3-D transient model for laser ablation modelling with plasma plume characterization ...