Finite-Size Effect in Phonon-Induced Elliott-Yafet Spin Relaxation in Al

Finite-Size Effect in Phonon-Induced Elliott-Yafet Spin Relaxation in Al

The Elliott-Yafet theory of spin relaxation in nonmagnetic metals predicts proportionality between spin and momentum relaxation times for scattering centers such as phonons. Here, we test this theory in Al nanowires over a very large thickness range (8.5-300 nm), finding that the Elliott-Yafet propo...

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Veröffentlicht in:Physical review letters 2022-05, Vol.128 (20), p.207201-207201, Article 207201
Hauptverfasser: Watts, J D, Batley, J T, Rabideau, N A, Hoch, J P, O'Brien, L, Crowell, P A, Leighton, C
Format: Artikel
Sprache:eng
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Zusammenfassung:The Elliott-Yafet theory of spin relaxation in nonmagnetic metals predicts proportionality between spin and momentum relaxation times for scattering centers such as phonons. Here, we test this theory in Al nanowires over a very large thickness range (8.5-300 nm), finding that the Elliott-Yafet proportionality "constant" for phonon scattering in fact exhibits a large, unanticipated finite-size effect. Supported by analytical and numerical modeling, we explain this via strong phonon-induced spin relaxation at surfaces and interfaces, driven in particular by enhanced spin-orbit coupling.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.128.207201