Nonperturbative Quantum Nature of the Dislocation–Phonon Interaction
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Nonperturbative Quantum Nature of the Dislocation–Phonon Interaction
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Despite the long history of dislocation-phonon interaction studies, there are many problems that have not been fully resolved during this development. These include an incompatibility between a perturbative approach and the long-range nature of a dislocation, the relation between static and dynamic scattering, and their capability of dealing with thermal transport phenomena for bulk material only. Here by utilizing a fully quantized dislocation field, which we called a “dislon”, a phonon interacting with a dislocation is renormalized as a quasi-phonon, with shifted quasi-phonon energy, and accompanied by a finite quasi-phonon lifetime, which are reducible to classical results. A series of outstanding legacy issues including those above can be directly explained within this unified phonon renormalization approach. For instance, a renormalized phonon naturally resolves the decade-long debate between dynamic and static dislocation-phonon scattering approaches, as two limiting cases. In particular, at nanoscale, both the dynamic and static approaches break down, while the present renormalization approach remains valid by capturing the size effect, showing good agreement with lattice dynamics simulations. Keywords: Dislocations; dislocation−phonon interaction; effective field theory; phonon transport; renormalization; thermal conductivity
Date issued
2017-03Department
Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science; Massachusetts Institute of Technology. Department of Mechanical Engineering; Massachusetts Institute of Technology. Department of PhysicsJournal
Nano Letters
Publisher
American Chemical Society (ACS)
Citation
Li, Mingda et al. “Nonperturbative Quantum Nature of the Dislocation–Phonon Interaction.” Nano Letters 17, 3 (February 2017): 1587–1594 © 2017 American Chemical Society
Version: Original manuscript
ISSN
1530-6984
1530-6992