Add to ORKGIn Raman thermometry, several assumptions are made to model the heat conduction and to extract the thermal conductivity of the samples from the measured data. In this work, the heat conduction in bulk and mesa-like samples was investigated by numerical simulation and measured by the temperature-induced Raman shift method, to study the range of applicability of these assumptions. The effects of light penetration depth and finite sample size on the accuracy of the thermal conductivity determination were investigated by comparing the results of the finite element method with the usual analytical approximation for bulk samples. We found that the assumptions used in the analytical model can be applied to extract the thermal conductivity in solid...
International audienceAnisotropic nanomaterials possess interesting thermal transport properties bec...
Diamond films possess many of the attractive properties of bulk diamond such as hardness, thermal co...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
In Raman thermometry, several assumptions are made to model the heat conduction and to extract the t...
The ability to measure intrinsic thermal conductivity via a non-contact, non-destructive process is ...
© COPYRIGHT SPIE. Downloading of the abstract is permitted for personal use only. We review the pot...
We review the potential and limitations of a temperature-dependent Raman Scattering Technique (RST) ...
Original experimental data for the temperature dependence of the Raman shift in silicon and gallium ...
We present a novel contactless technique for thermal conductivity determination and thermal field ma...
Under the terms of the Creative Commons Attribution (CC BY) license to their work.We present a novel...
With the growing demand for high performance computing, we are pushing for higher performance integr...
Mapping the thermal transport properties of materials at the nanoscale is of critical importance for...
In recent years, a steady increase in the need for packing more energy in smaller devices had driven...
Raman spectroscopy for fluid, melt, and mineral inclusions provides direct insight into the physicoc...
We report a micro-Raman-based optical method to measure in-plane thermal conductivity of ultrathin f...
International audienceAnisotropic nanomaterials possess interesting thermal transport properties bec...
Diamond films possess many of the attractive properties of bulk diamond such as hardness, thermal co...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
In Raman thermometry, several assumptions are made to model the heat conduction and to extract the t...
The ability to measure intrinsic thermal conductivity via a non-contact, non-destructive process is ...
© COPYRIGHT SPIE. Downloading of the abstract is permitted for personal use only. We review the pot...
We review the potential and limitations of a temperature-dependent Raman Scattering Technique (RST) ...
Original experimental data for the temperature dependence of the Raman shift in silicon and gallium ...
We present a novel contactless technique for thermal conductivity determination and thermal field ma...
Under the terms of the Creative Commons Attribution (CC BY) license to their work.We present a novel...
With the growing demand for high performance computing, we are pushing for higher performance integr...
Mapping the thermal transport properties of materials at the nanoscale is of critical importance for...
In recent years, a steady increase in the need for packing more energy in smaller devices had driven...
Raman spectroscopy for fluid, melt, and mineral inclusions provides direct insight into the physicoc...
We report a micro-Raman-based optical method to measure in-plane thermal conductivity of ultrathin f...
International audienceAnisotropic nanomaterials possess interesting thermal transport properties bec...
Diamond films possess many of the attractive properties of bulk diamond such as hardness, thermal co...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...