Add to ORKGIn this work, laser short-pulse heating of gold substrates is considered. The electron kinetic theory is proposed to model the non-equilibrium energy transport process. The predictions of the two equations and the Fourier heating models are compared with those for the electron kinetic theory. It is found that electron kinetic theory and the two equations model predictions of electron and lattice temperatures are identical. However, the Fourier heating model overestimates the temperature rise in the surface region
Strong short laser pulses can give rise to a strong increase in the electronic temperature at metal ...
The two-temperature model has been widely used to predict the electron and phonon temperature distri...
This paper presents a unified thermal model, which can describe the thermophysical effects with lase...
In this work, laser short-pulse heating of gold substrates is considered. The electron kinetic theor...
Laser shortpulse heating of metallic substrates requires microscopic examination of the energy trans...
Laser picosecond pulse heating initiates nonequilibrium energy transport in the surface vicinity of ...
Laser short-pulse heating of metallic surfaces results in the thermal separation of electron and lat...
During an ultrashort laser pulse, numerous photons are emitted in a very short period of time leadin...
In femtosecond laser processing of metals, the well-known two-temperature models have been widely us...
The analytical solution for non-equilibrium energy transfers in gold substrate and ballistic contrib...
Laser interactions with metals involve absorption of photon energy by electrons, energy coupling bet...
Laser successive pulse heating of engineering surfaces becomes fruitful for thermal treatment of the...
In this chapter some aspects of the interaction of femtosecond laser pulses with metals has been con...
By irradiating a thin metal foil with an intense short-pulse laser, we have created a uniform system...
This paper is a theoretical study on the photoemission properties of metallic photocathodes in the h...
Strong short laser pulses can give rise to a strong increase in the electronic temperature at metal ...
The two-temperature model has been widely used to predict the electron and phonon temperature distri...
This paper presents a unified thermal model, which can describe the thermophysical effects with lase...
In this work, laser short-pulse heating of gold substrates is considered. The electron kinetic theor...
Laser shortpulse heating of metallic substrates requires microscopic examination of the energy trans...
Laser picosecond pulse heating initiates nonequilibrium energy transport in the surface vicinity of ...
Laser short-pulse heating of metallic surfaces results in the thermal separation of electron and lat...
During an ultrashort laser pulse, numerous photons are emitted in a very short period of time leadin...
In femtosecond laser processing of metals, the well-known two-temperature models have been widely us...
The analytical solution for non-equilibrium energy transfers in gold substrate and ballistic contrib...
Laser interactions with metals involve absorption of photon energy by electrons, energy coupling bet...
Laser successive pulse heating of engineering surfaces becomes fruitful for thermal treatment of the...
In this chapter some aspects of the interaction of femtosecond laser pulses with metals has been con...
By irradiating a thin metal foil with an intense short-pulse laser, we have created a uniform system...
This paper is a theoretical study on the photoemission properties of metallic photocathodes in the h...
Strong short laser pulses can give rise to a strong increase in the electronic temperature at metal ...
The two-temperature model has been widely used to predict the electron and phonon temperature distri...
This paper presents a unified thermal model, which can describe the thermophysical effects with lase...