Resonant thermal transport in semiconductor barrier structures
arXiv:cond-mat/0401315 · doi:10.1103/PhysRevB.69.193305
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 $Ï_{\text{TSB}}$ and $Ï_{\text{TDB}}$.
4 pages. 4 figure.s