Add to ORKGWe present a theoretical approach to interpreting optical emission spectroscopy measurements for nonequilibrium conditions. In this approach both the fluid dynamics and the kinetics of laser-induced plasma are taken into account, and the results obtained by the numerical model are applied to the spectroscopic observation of the plasma induced by the interaction between a KrF laser and a metallic Ti target. We have generalized the theoretical method to calculate the initial conditions for the plume expansion that show the best agreement with experimental results
Presented in this thesis are observations recorded using optical absorption spectroscopy, laser indu...
none5A theoretical investigation of the expansion of the plasma, produced by a nanosecond laser puls...
In this work we present a theoretical study concerning the Laser Induced Plasma (LIP) produced by t...
We present a theoretical approach to interpreting optical emission spectroscopy measurements for non...
International audienceWe use a comprehensive model to investigate the interaction of ultraviolet nan...
A model of plasma expansion with chemical kinetics has been developed and compared with the free-flo...
Time and space resolved optical emission spectroscopy has been successfully employed to investigate ...
In this work the laser induced plasma obtained in air at atmospheric pressure by the interaction of ...
In this work the laser induced plasma obtained in air at atmospheric pressure by the interaction of ...
In the present study, the time evolution of electron number density, of electron, atom and ion tempe...
A model of plasma expansion with chemical kinetics has been developed and compared with the free flo...
In this paper a theoretical model to study the time and space evolution of the plasma generated duri...
In the present study, the emission spectrum of titanium produced from laser induced plasma has been ...
Pulsed Laser Deposition is a flexible and powerful tool for producing thin films of many materials. ...
The dynamics of a titanium plasma species, induced in air by coupling a fs-ablating laser pulse with...
Presented in this thesis are observations recorded using optical absorption spectroscopy, laser indu...
none5A theoretical investigation of the expansion of the plasma, produced by a nanosecond laser puls...
In this work we present a theoretical study concerning the Laser Induced Plasma (LIP) produced by t...
We present a theoretical approach to interpreting optical emission spectroscopy measurements for non...
International audienceWe use a comprehensive model to investigate the interaction of ultraviolet nan...
A model of plasma expansion with chemical kinetics has been developed and compared with the free-flo...
Time and space resolved optical emission spectroscopy has been successfully employed to investigate ...
In this work the laser induced plasma obtained in air at atmospheric pressure by the interaction of ...
In this work the laser induced plasma obtained in air at atmospheric pressure by the interaction of ...
In the present study, the time evolution of electron number density, of electron, atom and ion tempe...
A model of plasma expansion with chemical kinetics has been developed and compared with the free flo...
In this paper a theoretical model to study the time and space evolution of the plasma generated duri...
In the present study, the emission spectrum of titanium produced from laser induced plasma has been ...
Pulsed Laser Deposition is a flexible and powerful tool for producing thin films of many materials. ...
The dynamics of a titanium plasma species, induced in air by coupling a fs-ablating laser pulse with...
Presented in this thesis are observations recorded using optical absorption spectroscopy, laser indu...
none5A theoretical investigation of the expansion of the plasma, produced by a nanosecond laser puls...
In this work we present a theoretical study concerning the Laser Induced Plasma (LIP) produced by t...