THz Radiation via Inverse Rashba-Edelstein Effect

C. Zhou; C. Zhou; Y. P. Liu; Y. P. Liu; Z. Wang; S. J. Ma; M. W. Jia; R. Q. Wu; R. Q. Wu; L. Zhou; Y. Z. Wu; J. Qi

doi:10.1364/ISUPTW.2018.WC4

The 9th International Symposium on Ultrafast Phenomena and Terahertz Waves
OSA Technical Digest (online) (Optica Publishing Group, 2018),
paper WC4
•https://doi.org/10.1364/ISUPTW.2018.WC4

THz Radiation via Inverse Rashba-Edelstein Effect

C. Zhou, Y. P. Liu, Z. Wang, S. J. Ma, M. W. Jia, R. Q. Wu, L. Zhou, Y. Z. Wu, and J. Qi

International Symposium on Ultrafast Phenomena and Terahertz Waves 2018

Changsha, Hunan China
23–26 April 2018
ISBN: 978-0-9600380-8-4

From the session
Terahertz science and technology in micro and nano-structures II (WC)

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C. Zhou, Y. P. Liu, Z. Wang, S. J. Ma, M. W. Jia, R. Q. Wu, L. Zhou, Y. Z. Wu, and J. Qi, "THz Radiation via Inverse Rashba-Edelstein Effect," in The 9th International Symposium on Ultrafast Phenomena and Terahertz Waves, OSA Technical Digest (online) (Optica Publishing Group, 2018), paper WC4.

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Abstract

Using the inverse Rashba-Edelstein effect, we demonstrate a novel type of strong broadband THz emitter composed of ferromagnetic metallic heterostructures. The emitted THz wave has a bandwidth dominating ~0.1–5 THz.

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