Resonant thermal transport in semiconductor barrier structures

A. Balandin; D.A. Broido; D.G. Cahill; G. Chen; G. Chen; G.D. Mahan; G.D. Mahan; J.O. Sofo; K. Schwab; L.D. Hicks; L.G.C. Rego; P. Hyldgaard; P. Hyldgaard; P. Hyldgaard; P. Hyldgaard; R.J. Stoner; S. Mizuno; S. Pettersson; S.M. Lee; S.Y. Ren; T. Yao; V. Narayanamurti; V. Narayanamurti; W.S. Capinski; X.Y. Yu

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Resonant thermal transport in semiconductor barrier structures

Authors: A. Balandin
D.A. Broido
D.G. Cahill
G. Chen
G. Chen
G.D. Mahan
G.D. Mahan
J.O. Sofo
K. Schwab
L.D. Hicks
L.G.C. Rego
P. Hyldgaard
P. Hyldgaard
P. Hyldgaard
P. Hyldgaard
R.J. Stoner
S. Mizuno
S. Pettersson
S.M. Lee
S.Y. Ren
T. Yao
V. Narayanamurti
V. Narayanamurti
W.S. Capinski
X.Y. Yu
Publication date: 18 January 2004
Publisher: 'American Physical Society (APS)'
Doi

Abstract

I report that thermal single-barrier (TSB) and thermal double-barrier (TDB) structures (formed, for example, by inserting one or two regions of a few Ge monolayers in Si) provide both a suppression of the phonon transport as well as a resonant-thermal-transport effect. I show that high-frequency phonons can experience a traditional double-barrier resonant tunneling in the TDB structures while the formation of Fabry-Perot resonances (at lower frequencies) causes quantum oscillations in the temperature variation of both the TSB and TDB thermal conductances

\sigma_{\text{TSB}}

and

\sigma_{\text{TDB}}

.Comment: 4 pages. 4 figure.

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