Yasufumi Araki, Takahiro Misawa, Kentaro Nomura
Published 2019-12-27Version 1
We theoretically manifest that the edge of a quantum spin Hall insulator (QSHI), attached to an insulating ferromagnet (FM), can realize a highly efficient spin-to-charge conversion. Based on a one-dimensional QSHI-FM junction, the electron dynamics on the QSHI edge is analyzed, driven by a magnetization dynamics in the FM. Under a large gap opening on the edge from the magnetic exchange coupling, we find that the spin injection into the QSHI edge gets suppressed while the charge current driven on the edge gets maximized, demanded by the band topology of the one-dimensional helical edge states.
Comments: 6 pages, 3 figures (+ 3 pages of Appendix, 1 figure)
Chiral detection of Majorana bound states at the edge of a quantum spin Hall insulator
Tomonaga-Luttinger liquid in the edge channels of a quantum spin Hall insulator
Topological transport in monolayer jacutingaite
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