Thermal transport in nanoporous holey silicon membranes investigated with optically-induced transient thermal gratings

In this study, we use the transient thermal grating optical technique \textemdash a non-contact, laser-based thermal metrology technique with intrinsically high accuracy \textemdash to investigate room-temperature phonon-mediated thermal transport in two nanoporous holey silicon membranes with limit...

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Published in	arXiv.org
Main Authors	Duncan, Ryan A, Romano, Giuseppe, Sledzinska, Marianna, Maznev, Alexei A, Peraud, Jean-Philippe M, Hellman, Olle, Sotomayor Torres, Clivia M, Nelson, Keith A
Format	Paper Journal Article
Language	English
Published	Ithaca Cornell University Library, arXiv.org 20.10.2020
Subjects	Boltzmann transport equation Fourier law Gratings (spectra) Heat flux Laser applications Mathematical analysis Membranes Phonons Physics - Materials Science Physics - Mesoscale and Nanoscale Physics Room temperature Silicon Temperature gradients Thermal gratings Transport equations
Online Access	Get full text
ISSN	2331-8422
DOI	10.48550/arxiv.1912.06211

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Abstract	In this study, we use the transient thermal grating optical technique \textemdash a non-contact, laser-based thermal metrology technique with intrinsically high accuracy \textemdash to investigate room-temperature phonon-mediated thermal transport in two nanoporous holey silicon membranes with limiting dimensions of 100 nm and 250 nm respectively. We compare the experimental results to ab initio calculations of phonon-mediated thermal transport according to the phonon Boltzmann transport equation (BTE) using two different computational techniques. We find that the calculations conducted within the Casimir framework, i.e. based on the BTE with the bulk phonon dispersion and diffuse scattering from surfaces, are in quantitative agreement with the experimental data, and thus conclude that this framework is adequate for describing phonon-mediated thermal transport through holey silicon membranes with feature sizes on the order of 100 nm.
AbstractList	In this study, we use the transient thermal grating optical technique \textemdash a non-contact, laser-based thermal metrology technique with intrinsically high accuracy \textemdash to investigate room-temperature phonon-mediated thermal transport in two nanoporous holey silicon membranes with limiting dimensions of 100 nm and 250 nm respectively. We compare the experimental results to ab initio calculations of phonon-mediated thermal transport according to the phonon Boltzmann transport equation (BTE) using two different computational techniques. We find that the calculations conducted within the Casimir framework, i.e. based on the BTE with the bulk phonon dispersion and diffuse scattering from surfaces, are in quantitative agreement with the experimental data, and thus conclude that this framework is adequate for describing phonon-mediated thermal transport through holey silicon membranes with feature sizes on the order of 100 nm. In this study, we use the transient thermal grating optical technique \textemdash a non-contact, laser-based thermal metrology technique with intrinsically high accuracy \textemdash to investigate room-temperature phonon-mediated thermal transport in two nanoporous holey silicon membranes with limiting dimensions of 100 nm and 250 nm respectively. We compare the experimental results to ab initio calculations of phonon-mediated thermal transport according to the phonon Boltzmann transport equation (BTE) using two different computational techniques. We find that the calculations conducted within the Casimir framework, i.e. based on the BTE with the bulk phonon dispersion and diffuse scattering from surfaces, are in quantitative agreement with the experimental data, and thus conclude that this framework is adequate for describing phonon-mediated thermal transport through holey silicon membranes with feature sizes on the order of 100 nm.
Author	Duncan, Ryan A Hellman, Olle Maznev, Alexei A Sledzinska, Marianna Nelson, Keith A Sotomayor Torres, Clivia M Peraud, Jean-Philippe M Romano, Giuseppe
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BackLink	https://doi.org/10.48550/arXiv.1912.06211$$DView paper in arXiv https://doi.org/10.1063/1.5141804$$DView published paper (Access to full text may be restricted)
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Snippet	In this study, we use the transient thermal grating optical technique \textemdash a non-contact, laser-based thermal metrology technique with intrinsically... In this study, we use the transient thermal grating optical technique \textemdash a non-contact, laser-based thermal metrology technique with intrinsically...
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SubjectTerms	Boltzmann transport equation Fourier law Gratings (spectra) Heat flux Laser applications Mathematical analysis Membranes Phonons Physics - Materials Science Physics - Mesoscale and Nanoscale Physics Room temperature Silicon Temperature gradients Thermal gratings Transport equations
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Title	Thermal transport in nanoporous holey silicon membranes investigated with optically-induced transient thermal gratings
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