Title:
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Spin dynamics and relaxation in graphene dictated by electron-hole puddles
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Author:
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Dinh, Van Tuan; Ortmann, Frank; Cummings, Aron; Soriano, David; Roche, Stephan
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Abstract:
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The understanding of spin dynamics and relaxation mechanisms in clean graphene, and the upper time and length scales on which spin devices can operate, are prerequisites to realizing graphene-based spintronic technologies. Here we theoretically reveal the nature of fundamental spin relaxation mechanisms in clean graphene on different substrates with Rashba spin-orbit fields as low as a few tens of μeV. Spin lifetimes ranging from 50 picoseconds up to several nanoseconds are found to be dictated by substrate-induced electron-hole characteristics. A crossover in the spin relaxation mechanism from a Dyakonov-Perel type for SiO₂ substrates to a broadening-induced dephasing for hBN substrates is described. The energy dependence of spin lifetimes, their ratio for spins pointing out-of-plane and in-plane, and the scaling with disorder provide a global picture about spin dynamics and relaxation in ultraclean graphene in the presence of electron-hole puddles. |
Rights:
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open access
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https://creativecommons.org/licenses/by/4.0/ |
Document type:
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Article |
Published by:
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Uri:
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https://ddd.uab.cat/record/195653
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