Temperature dependance of Intrinsic Spin Orbit Coupling Gap in Graphene probed by Terahertz photoconductivity - Laboratoire Charles Coulomb (L2C)
Conference Papers Year : 2023

Temperature dependance of Intrinsic Spin Orbit Coupling Gap in Graphene probed by Terahertz photoconductivity

Cédric Bray
Christophe Consejo
Sergey Krishtopenko
Sandra Ruffenach
Benjamin Benhamou-Bui
Benoit Jouault
Wojciech Knap
S. Ganichev
Frédéric Teppe

Abstract

Graphene is a quantum spin Hall insulator, with a nontrivial topological gap induced by the spin-orbit coupling. Such splitting is weak (~45µeV) in the absence of external magnetic field. However, due to rather long spin-relaxation time, graphene is an attractive candidate for applications in quantum technologies. When it is encapsulated in hexagonal boron nitride, the coupling between graphene and the substrate compensates intrinsic spin-orbit coupling and decreases the nontrivial topological gap, which may lead to phase transition into a trivial band insulator state. In this work, we have measured experimentally the zero-field splittings in monolayer and bilayer graphene by the means of subterahertz photoconductivity-based electron spin resonance technique. The dependance in temperature of such splittings have been also studied in the 2-12K range. We observed a decrease of the spin splittings with increasing temperature. Such behavior might be understood from several physical mechanisms that could induce a temperature dependence of the spin-orbit coupling. These includes the difference in the expansion coefficients between the graphene and the boron nitride substrate or the metal contacts, the electronphonon interactions, and the presence of a magnetic order at low temperature.
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Dates and versions

hal-04304454 , version 1 (16-10-2024)

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Kenneth Maussang, Khalid Dinar, Cédric Bray, Christophe Consejo, J. Delgado-Notario, et al.. Temperature dependance of Intrinsic Spin Orbit Coupling Gap in Graphene probed by Terahertz photoconductivity. 2023 48th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz), Sep 2023, Montréal, Canada. ⟨10.1109/irmmw-thz57677.2023.10299006⟩. ⟨hal-04304454⟩
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