Add to ORKGPulsed laser ablation of metals and oxides have been carried out under controlled conditions. Process control parameters such as laser power, laser excitation voltage, beam focus, chamber pressure, substrate temperature, pulse repetition rate, and target rotation rate were changed and the outputs analyzed. The real-time signature of the plume has been studied and characterized. These experimental results are compared with mathematical models of the ablation process and the supersonic plume propagation wave. We can explain with reference to the correlation of real-time spectroscopy some anomalies present in the ablation process involving the non-equilibrium production of oxides. In the computational model for the reacting pulsed-laser ablati...
The plasma plume created during photoablation of various targets by an excimer KrF laser beam is st...
International audienceAblation of metal targets by femtosecond laser pulses is studied numerically b...
A plume consisting of vapor and ionized particles of the workpiece is usually formed during various ...
Pulsed laser ablation of metals and oxides have been carried out under controlled conditions. Proces...
Various physics and computational approaches have been developed to globally characterize phenomena ...
To study the phase transformation mechanism and gas dynamic process for the laser-ablated plume, dir...
Several physics and computational approaches have been developed to globally characterize phenomena ...
Rapid transformations through the liquid and vapor phases induced by laser-solid interactions are de...
Laser materials processing techniques are expected to have a dramatic impact on materials science an...
In femtosecond laser ablation the plume has two components: a faster-moving plasma part and a slower...
High quality thin films (100 nm to several 1000 nm) of many complex material systems such as the hig...
A study of the gas dynamics of the vapor plume generated during laser ablation was conducted includ...
An annealing model is extended to treat the vaporization process, and a hydrodynamic model describes...
International audienceWe demonstrate that chemical reactions leading to the formation of AlO radical...
We have analyzed ultrafast laser ablation of a metallic target Nickel in high vacuum addressing bot...
The plasma plume created during photoablation of various targets by an excimer KrF laser beam is st...
International audienceAblation of metal targets by femtosecond laser pulses is studied numerically b...
A plume consisting of vapor and ionized particles of the workpiece is usually formed during various ...
Pulsed laser ablation of metals and oxides have been carried out under controlled conditions. Proces...
Various physics and computational approaches have been developed to globally characterize phenomena ...
To study the phase transformation mechanism and gas dynamic process for the laser-ablated plume, dir...
Several physics and computational approaches have been developed to globally characterize phenomena ...
Rapid transformations through the liquid and vapor phases induced by laser-solid interactions are de...
Laser materials processing techniques are expected to have a dramatic impact on materials science an...
In femtosecond laser ablation the plume has two components: a faster-moving plasma part and a slower...
High quality thin films (100 nm to several 1000 nm) of many complex material systems such as the hig...
A study of the gas dynamics of the vapor plume generated during laser ablation was conducted includ...
An annealing model is extended to treat the vaporization process, and a hydrodynamic model describes...
International audienceWe demonstrate that chemical reactions leading to the formation of AlO radical...
We have analyzed ultrafast laser ablation of a metallic target Nickel in high vacuum addressing bot...
The plasma plume created during photoablation of various targets by an excimer KrF laser beam is st...
International audienceAblation of metal targets by femtosecond laser pulses is studied numerically b...
A plume consisting of vapor and ionized particles of the workpiece is usually formed during various ...