Highly Efficient Spin-to-Charge Current Conversion in Strained HgTe Surface States Protected by a HgCdTe Layer

Highly Efficient Spin-to-Charge Current Conversion in Strained HgTe Surface States Protected by a HgCdTe Layer

We report the observation of spin-to-charge current conversion in strained mercury telluride at room temperature, using spin pumping experiments. We show that a HgCdTe barrier can be used to protect the HgTe from direct contact with the ferromagnet, leading to very high conversion rates, with invers...

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Veröffentlicht in:Physical review letters 2018-04, Vol.120 (16), p.167201-167201, Article 167201
Hauptverfasser: Noel, P, Thomas, C, Fu, Y, Vila, L, Haas, B, Jouneau, P-H, Gambarelli, S, Meunier, T, Ballet, P, Attané, J P
Format: Artikel
Sprache:eng
Schlagworte:
Condensed Matter
Conversion
Ferromagnetism
Hall effect
Intermetallic compounds
Mercury cadmium tellurides
Physics
Tellurides
Temperature dependence
Thickness
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Zusammenfassung:We report the observation of spin-to-charge current conversion in strained mercury telluride at room temperature, using spin pumping experiments. We show that a HgCdTe barrier can be used to protect the HgTe from direct contact with the ferromagnet, leading to very high conversion rates, with inverse Edelstein lengths up to 2.0±0.5  nm. The influence of the HgTe layer thickness on the conversion efficiency is found to differ strongly from what is expected in spin Hall effect systems. These measurements, associated with the temperature dependence of the resistivity, suggest that these high conversion rates are due to the spin momentum locking property of HgTe surface states.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.120.167201