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W3100521541 abstract "Through a combined theoretical and experimental effort, we uncover a yet unidentified mechanism that strengthens considerably electron-phonon coupling in materials where electron accumulation leads to population of multiple valleys. Taking atomically-thin transition-metal dichalcogenides as prototypical examples, we establish that the mechanism results from a phonon-induced out-of-phase energy shift of the different valleys, which causes inter-valley charge transfer and reduces the effectiveness of electrostatic screening, thus enhancing electron-phonon interactions. The effect is physically robust, it can play a role in many materials and phenomena, as we illustrate by discussing experimental evidence for its relevance in the occurrence of superconductivity. (short abstract due to size limitations - full abstract in the manuscript)" @default.
W3100521541 created "2020-11-23" @default.
W3100521541 creator A5003054947 @default.
W3100521541 creator A5005167296 @default.
W3100521541 creator A5024510311 @default.
W3100521541 creator A5025451233 @default.
W3100521541 creator A5030517631 @default.
W3100521541 creator A5032755012 @default.
W3100521541 creator A5036132743 @default.
W3100521541 date "2019-08-06" @default.
W3100521541 modified "2023-10-10" @default.
W3100521541 title "Enhanced Electron-Phonon Interaction in Multivalley Materials" @default.
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W3100521541 doi "https://doi.org/10.1103/physrevx.9.031019" @default.
W3100521541 hasPublicationYear "2019" @default.
W3100521541 type Work @default.
W3100521541 sameAs 3100521541 @default.