Add to ORKGThe effect of phonon scattering by surface roughness on the thermal conductance in mesoscopic systems at low temperatures is calculated using full elasticity theory. The low frequency behavior of the scattering shows novel power law dependences arising from the unusual properties of the elastic modes. This leads to new predictions for the low temperature depression of the thermal conductance below the ideal universal value. Comparison with the data of Schwab et al. [Nature (London) 404, 974 (2000)] suggests that surface roughness on a scale of the width of the thermal pathway is important in the experiment
Phonon heat transport in mesoscopic systems is investigated using methods analogous to the Landauer ...
Abstract. Controlling thermal transport has become relevant in recent years. Traditionally, this con...
Abstract—The effective thermal conductivity of non-continuum wires with rough boundaries was investi...
We explain the reduction of the thermal conductance below the predicted universal value observed by ...
In this work, we have investigated the influence of power-law roughness on the ballistic thermal con...
Mitigation of the global energy crisis requires tailoring the thermal conductivity of materials. Low...
Phonon surface scattering has been at the core of heat transport engineering in nanoscale devices. H...
Knowledge on phonon transmittance as a function of phonon frequency and incidence angle at interface...
We have developed specially designed semiconductor devices for the measurement of thermal conductanc...
Although the study of thermal transport in condensed matter has a very long history, it continues t...
Phonons are the primary carriers of heat in dielectric solids. In the limit of long wavelength, phon...
Lattice vibration is the main microscopic mechanism for thermal transport in dielectric materials. T...
The theory of anharmonic three-phonon interactions predicts an expression for the mean free path of ...
This dissertation presents experimental studies of heat transport by phonons in crystalline material...
International audienceIt has been proposed for a long time now that the reduction of the thermal con...
Phonon heat transport in mesoscopic systems is investigated using methods analogous to the Landauer ...
Abstract. Controlling thermal transport has become relevant in recent years. Traditionally, this con...
Abstract—The effective thermal conductivity of non-continuum wires with rough boundaries was investi...
We explain the reduction of the thermal conductance below the predicted universal value observed by ...
In this work, we have investigated the influence of power-law roughness on the ballistic thermal con...
Mitigation of the global energy crisis requires tailoring the thermal conductivity of materials. Low...
Phonon surface scattering has been at the core of heat transport engineering in nanoscale devices. H...
Knowledge on phonon transmittance as a function of phonon frequency and incidence angle at interface...
We have developed specially designed semiconductor devices for the measurement of thermal conductanc...
Although the study of thermal transport in condensed matter has a very long history, it continues t...
Phonons are the primary carriers of heat in dielectric solids. In the limit of long wavelength, phon...
Lattice vibration is the main microscopic mechanism for thermal transport in dielectric materials. T...
The theory of anharmonic three-phonon interactions predicts an expression for the mean free path of ...
This dissertation presents experimental studies of heat transport by phonons in crystalline material...
International audienceIt has been proposed for a long time now that the reduction of the thermal con...
Phonon heat transport in mesoscopic systems is investigated using methods analogous to the Landauer ...
Abstract. Controlling thermal transport has become relevant in recent years. Traditionally, this con...
Abstract—The effective thermal conductivity of non-continuum wires with rough boundaries was investi...