Far- and midinfrared excitation of large amplitude spin precession in the ferromagnetic semiconductor InMnAs

Gatilova, A. and Mashkovich, E.A. and Grishunin, K.A. and Pogrebna, A. and Mikhaylovskiy, R.V. and Rasing, T. and Christianen, P.M. and Nishizawa, N. and Munekata, H. and Kimel, A.V. (2020) Far- and midinfrared excitation of large amplitude spin precession in the ferromagnetic semiconductor InMnAs. Physical review B, 101 (2): 020413. ISSN 1098-0121

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Abstract

Ultrafast laser excitation of the ferromagnetic semiconductor InMnAs is shown to trigger spin precession with the largest amplitude reported for magnetic semiconductors so far. To reveal the electronic transitions mediating the coupling between light and spins, we compared the spin dynamics triggered by short terahertz (photon energy 5 meV) and midinfrared (photon energy 500 meV) pulses. The experiments reveal that terahertz pump pulses excite qualitatively similar spin dynamics, but are 100 times more energy efficient than the mid-IR pulses. This finding shows that in a semiconductor with hole-mediated ferromagnetism intraband electronic transitions mediate ultrafast and the most efficient coupling between light and spins.

Item Type:
Journal Article
Journal or Publication Title:
Physical review B
Additional Information:
© 2020 American Physical Society
ID Code:
148000
Deposited By:
Deposited On:
06 Oct 2020 11:05
Refereed?:
Yes
Published?:
Published
Last Modified:
26 Oct 2024 00:23