Ultrashort pulse laser heating is not only capable of resolving and observing the ultrafast interaction of energy carriers, i. e. electrons, phonons, but also widely applied to material processing, i. e., laser ablation. However, the previous theories, i. e., two-temperature model, parabolic one-step model, can be applied only to some limited segments. In this paper, according to the two-temperature model and Fourier' s law, a general theoretical model is presented for the description of the entire heat relaxation process after the thin metal film deposited on the substrate has been heated by the ultrashort pulse laser. Moreover, the heat conduction process is also experimentally studied by using the rear-pump front-probe transient the...
Recently, a new laser micromachining technique using multiple ultrashort pulses with a picosecond-to...
The present work uses two-temperature model and Cattaneo's constitutive model to study the therm...
Laser-materials interaction with femtosecond (ultrashort) pulses is different from that of nanosecon...
The aim of this study is to investigate the effect of interfacial thermal boundary resistance (TBR) ...
Heat transfer across metal-dielectric interfaces involves transport of electrons and phonons accompl...
How the energy transfers during electron-phonon nonequilibrium in thin metal films is still an open ...
Using a transient thermoreflectance (TTR) technique, several Au films with different thicknesses on ...
The ultra-fast heat transfer in metallic films has attracted great interest in modern femtosecond la...
The one-dimensional non-homogeneous hyperbolic energy equation within a semi-infinite domain, applie...
The pump-probe technique is an ultrafast spectroscopy method of detecting the dynamics of energy car...
In the paper the problem of thin metal film subjected to the action of the high laser fluence and th...
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 improved two-temperature model with quantum treatments is used to analyze the ultrashort laser p...
Laser picosecond pulse heating initiates nonequilibrium energy transport in the surface vicinity of ...
Recently, a new laser micromachining technique using multiple ultrashort pulses with a picosecond-to...
The present work uses two-temperature model and Cattaneo's constitutive model to study the therm...
Laser-materials interaction with femtosecond (ultrashort) pulses is different from that of nanosecon...
The aim of this study is to investigate the effect of interfacial thermal boundary resistance (TBR) ...
Heat transfer across metal-dielectric interfaces involves transport of electrons and phonons accompl...
How the energy transfers during electron-phonon nonequilibrium in thin metal films is still an open ...
Using a transient thermoreflectance (TTR) technique, several Au films with different thicknesses on ...
The ultra-fast heat transfer in metallic films has attracted great interest in modern femtosecond la...
The one-dimensional non-homogeneous hyperbolic energy equation within a semi-infinite domain, applie...
The pump-probe technique is an ultrafast spectroscopy method of detecting the dynamics of energy car...
In the paper the problem of thin metal film subjected to the action of the high laser fluence and th...
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 improved two-temperature model with quantum treatments is used to analyze the ultrashort laser p...
Laser picosecond pulse heating initiates nonequilibrium energy transport in the surface vicinity of ...
Recently, a new laser micromachining technique using multiple ultrashort pulses with a picosecond-to...
The present work uses two-temperature model and Cattaneo's constitutive model to study the therm...
Laser-materials interaction with femtosecond (ultrashort) pulses is different from that of nanosecon...