Add to ORKGIn femtosecond laser processing of metals, the well-known two-temperature models have been widely used to calculate the photon-electron and electron-lattice interactions and energy transport. However, the estimations of some critical parameters, such as the electron heat capacity and reflectivity, in the models are limited to low fluences and cannot correctly predict the damage threshold without using fitting variables. This paper extends the existing two-temperature models by using quantum treatments for free electrons to calculate the time and space dependent optical and thermal properties, including the electron heat capacity, electron relaxation time, electron conductivity, reflectivity and absorption coefficient. The improved two-tempe...
International audienceWe present a model to describe thermophysical and optical properties of two-te...
Ultrashort pulse laser heating is not only capable of resolving and observing the ultrafast interact...
A multiscale model is developed to study to the femtosecond laser single pulse and pulse train proce...
At laser intensities near the threshold fluence, the electron temperatures in metals heated by an ul...
The two-temperature model has been widely used to predict the electron and phonon temperature distri...
During an ultrashort laser pulse, numerous photons are emitted in a very short period of time leadin...
The improved two-temperature model with quantum treatments is used to analyze the ultrashort laser p...
Recently, a new laser micromachining technique using multiple ultrashort pulses with a picosecond-to...
Above the damage threshold of Au nanofoil, experimental and theoretical investigations of the fluenc...
Thermal phenomena, such as heat propagation, lattice melting, and ablation, are the result of energy...
In this work, laser short-pulse heating of gold substrates is considered. The electron kinetic theor...
Laser short-pulse heating of metallic surfaces results in the thermal separation of electron and lat...
From both a theoretical and an experimental point of view, the properties of fs laser pulses are fas...
This paper presents a unified thermal model, which can describe the thermophysical effects with lase...
For the description of the interaction of a fs-laser pulse with a solid, the standard values of the ...
International audienceWe present a model to describe thermophysical and optical properties of two-te...
Ultrashort pulse laser heating is not only capable of resolving and observing the ultrafast interact...
A multiscale model is developed to study to the femtosecond laser single pulse and pulse train proce...
At laser intensities near the threshold fluence, the electron temperatures in metals heated by an ul...
The two-temperature model has been widely used to predict the electron and phonon temperature distri...
During an ultrashort laser pulse, numerous photons are emitted in a very short period of time leadin...
The improved two-temperature model with quantum treatments is used to analyze the ultrashort laser p...
Recently, a new laser micromachining technique using multiple ultrashort pulses with a picosecond-to...
Above the damage threshold of Au nanofoil, experimental and theoretical investigations of the fluenc...
Thermal phenomena, such as heat propagation, lattice melting, and ablation, are the result of energy...
In this work, laser short-pulse heating of gold substrates is considered. The electron kinetic theor...
Laser short-pulse heating of metallic surfaces results in the thermal separation of electron and lat...
From both a theoretical and an experimental point of view, the properties of fs laser pulses are fas...
This paper presents a unified thermal model, which can describe the thermophysical effects with lase...
For the description of the interaction of a fs-laser pulse with a solid, the standard values of the ...
International audienceWe present a model to describe thermophysical and optical properties of two-te...
Ultrashort pulse laser heating is not only capable of resolving and observing the ultrafast interact...
A multiscale model is developed to study to the femtosecond laser single pulse and pulse train proce...