Affiliation:
1. Institute of Industrial Science, The University of Tokyo , Tokyo 153-8505, Japan
Abstract
Manipulating heat fluxes at the nanoscale has become increasingly important in modern microelectronics. However, many methods of heat manipulations rely on complex nanofabrication. Here, we propose simple designs for collimation and focusing of thermal phonons based on parabolic mirrors that require no nanofabrication. We perform Monte Carlo simulations of a ballistic phonon transport in silicon membranes with parabolic boundaries. Our simulations demonstrate that parabolic surfaces can act as parabolic mirrors for phonons, thus collimating or focusing phonon fluxes in semiconductors. Such parabolic mirrors can create a directional flux of thermal phonons emitted from a nanoscale hot spot or focus a collimated phonon flux into a hot spot. These devices open new possibilities in the thermal management of low-temperature systems, such as quantum circuits or cryogenic particle detectors.
Funder
Precursory Research for Embryonic Science and Technology
Core Research for Evolutional Science and Technology
Japan Society for the Promotion of Science London
Subject
Physics and Astronomy (miscellaneous)
Cited by
2 articles.
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