期刊
PHYSICAL REVIEW LETTERS
卷 126, 期 19, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevLett.126.197201
关键词
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资金
- National Nature Science Foundation of China (NSFC) [2015CB921402, 11374057, 11434003, 11421404, 62027807, 12074366, B07020, 2016YFA0300703]
- Fundamental Research Funds for the Central Universities [WK2340000102]
The study found that the charge voltages generated by two counterpropagating spin currents in the Ag/Bi interface show opposite signs, consistent with the inverse spin Hall effect rather than the inverse Rashba-Eldestein effect. Using femtosecond laser to generate spin-current-induced terahertz signal in the Ag/Bi bilayer also showed no evidence for the inverse Rashba-Eldestein effect. This work provides a clear-cut method to identify the spin-to-charge mechanism in a Rashba electronic state and delivers new understanding for the relevant spin-transport phenomena.
The spin-to-charge conversion of the Ag/Bi interface is studied in a device in which a spin current can be injected from either side selectively. The charge voltages generated by the two counterpropagating spin currents show opposite signs, that is consistent with the inverse spin Hall effect rather than the wellaccepted inverse Rashba-Eldestein effect in the Ag/Bi bilayer. Femtosecond laser is further employed to generate the spin-current-induced terahertz signal in a Ag/Bi bilayer, which shows no evidence for the inverse Rashba-Eldestein effect, either. This work provides a clear-cut method to identify the spin-to-charge mechanism in a Rashba electronic state and delivers new understanding for the relevant spin-transport phenomena.
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