Add to ORKGThe “textbook” phonon mean free path of heat carrying phonons in silicon at room temperature is ∼40 nm. However, a large contribution to the thermal conductivity comes from low-frequency phonons with much longer mean free paths. We present a simple experiment demonstrating that room-temperature thermal transport in Si significantly deviates from the diffusion model already at micron distances. Absorption of crossed laser pulses in a freestanding silicon membrane sets up a sinusoidal temperature profile that is monitored via diffraction of a probe laser beam. By changing the period of the thermal grating we vary the heat transport distance within the range ∼1–10 μm. At small distances, we observe a reduction in the effective thermal conduc...
Knowledge of the mean-free-path distribution of heat-carrying phonons is key to understanding phonon...
Heat conduction in silicon can be effectively engineered by means of sub-micrometre porous thin free...
We report on the reduction of the thermal conductivity in ultra-thin suspended Si membranes with hig...
The "textbook" phonon mean free path of heat carrying phonons in silicon at room temperature is simi...
The ‘‘textbook’’ phonon mean free path of heat carrying phonons in silicon at room temperature is 40...
et al.Studying thermal transport at the nanoscale poses formidable experimental challenges due both ...
We report on a contactless, all-optical method to derive thermal properties of 340 nm thin, 640×640 ...
International audienceWe characterize nanometer-thin suspended silicon membranes in the pristine sta...
A detailed understanding of the connections of fabrication and processing to structural and thermal ...
We report on the reduction of the thermal conductivity in ultra-thin suspended Si membranes with hig...
A detailed understanding of the connections of fabrication and processing to structural and thermal ...
A detailed understanding of the connections of fabrication and processing to structural and thermal ...
Altres ajuts: ICN2 is supported by the CERCA Programme/Generalitat de Catalunya.In this study, we us...
Resumen del trabajo presentado al XXXth International Winterschool on Electronics Properties of Nove...
We studied the phonon transport in free-standing 1 µm thick silicon-nitride membranes at temperature...
Knowledge of the mean-free-path distribution of heat-carrying phonons is key to understanding phonon...
Heat conduction in silicon can be effectively engineered by means of sub-micrometre porous thin free...
We report on the reduction of the thermal conductivity in ultra-thin suspended Si membranes with hig...
The "textbook" phonon mean free path of heat carrying phonons in silicon at room temperature is simi...
The ‘‘textbook’’ phonon mean free path of heat carrying phonons in silicon at room temperature is 40...
et al.Studying thermal transport at the nanoscale poses formidable experimental challenges due both ...
We report on a contactless, all-optical method to derive thermal properties of 340 nm thin, 640×640 ...
International audienceWe characterize nanometer-thin suspended silicon membranes in the pristine sta...
A detailed understanding of the connections of fabrication and processing to structural and thermal ...
We report on the reduction of the thermal conductivity in ultra-thin suspended Si membranes with hig...
A detailed understanding of the connections of fabrication and processing to structural and thermal ...
A detailed understanding of the connections of fabrication and processing to structural and thermal ...
Altres ajuts: ICN2 is supported by the CERCA Programme/Generalitat de Catalunya.In this study, we us...
Resumen del trabajo presentado al XXXth International Winterschool on Electronics Properties of Nove...
We studied the phonon transport in free-standing 1 µm thick silicon-nitride membranes at temperature...
Knowledge of the mean-free-path distribution of heat-carrying phonons is key to understanding phonon...
Heat conduction in silicon can be effectively engineered by means of sub-micrometre porous thin free...
We report on the reduction of the thermal conductivity in ultra-thin suspended Si membranes with hig...