Add to ORKG\u22Front heating-rear detection type Thermoreflectance method\u22 is numerically reproduced by developed hybrid molecular dynamics method which couples classical molecular dynamics method with two temperature model. Simulation is conducted in order to inverstigate transient thermal behavior in femtosecond thermoreflectance method that employs short pulse and high intensity laser compared to traditional thermoreflectance method. In the simulation, aluminum thin film whose thickness is 75nm is irradiated with picosecond and femtosecond pulsed lasers with the same fluence. As a result, increment of laser intensity due to shorted pulse width enhances intrinsic vibration all in the film and makes temperature disturbance on detection surface lar...
Previously, we considered the analytical solution of nonlinear diffusion equation in two-dimensional...
[EN] The presented article deals with inverse problems in nanoscale heat transfer identification pro...
International audienceOver the past three decades, ultrashort laser pulses have been demonstrated to...
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...
Using a transient thermoreflectance (TTR) technique, several Au films with different thicknesses on ...
In the present work we investigate femtosecond laser heat-ing of nanoscale metal films irradiated by...
In the paper the problem of thin metal film subjected to the action of the high laser fluence and th...
A thin metal film subjected to an ultrashort laser pulse is considered. With a sufficiently high las...
Thermal phenomena, such as heat propagation, lattice melting, and ablation, are the result of energy...
Summarization: This thesis studies the physical phenomena that occur during the deposition of energy...
Ultrashort pulse laser heating is not only capable of resolving and observing the ultrafast interact...
The aim of this paper is to study the benefits of applying ultrashort pulsed lasers over nanosecond ...
The interactions of femtosecond lasers with gold targets were investigated with a numerical method c...
Heat transfer describes the exchange of thermal energy, between physical systems depending on the te...
Previously, we considered the analytical solution of nonlinear diffusion equation in two-dimensional...
[EN] The presented article deals with inverse problems in nanoscale heat transfer identification pro...
International audienceOver the past three decades, ultrashort laser pulses have been demonstrated to...
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...
Using a transient thermoreflectance (TTR) technique, several Au films with different thicknesses on ...
In the present work we investigate femtosecond laser heat-ing of nanoscale metal films irradiated by...
In the paper the problem of thin metal film subjected to the action of the high laser fluence and th...
A thin metal film subjected to an ultrashort laser pulse is considered. With a sufficiently high las...
Thermal phenomena, such as heat propagation, lattice melting, and ablation, are the result of energy...
Summarization: This thesis studies the physical phenomena that occur during the deposition of energy...
Ultrashort pulse laser heating is not only capable of resolving and observing the ultrafast interact...
The aim of this paper is to study the benefits of applying ultrashort pulsed lasers over nanosecond ...
The interactions of femtosecond lasers with gold targets were investigated with a numerical method c...
Heat transfer describes the exchange of thermal energy, between physical systems depending on the te...
Previously, we considered the analytical solution of nonlinear diffusion equation in two-dimensional...
[EN] The presented article deals with inverse problems in nanoscale heat transfer identification pro...
International audienceOver the past three decades, ultrashort laser pulses have been demonstrated to...