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Paper detail

Anomalous Transition Magnetic Moments in two-dimensional Dirac Materials

We show that the magnetic response of atomically thin materials with Dirac spectrum and spin-orbit interactions can exhibit strong dependence on electron-electron interactions. While graphene itself has a very small spin-orbit coupling, various two-dimensional (2D) compounds "beyond graphene" are good candidates to exhibit the strong interplay between spin-orbit and Coulomb interactions. Materials in this class include dichalcogenides (such as MoS$_2$ and WSe$_2$), silicene, germanene, as well as 2D topological insulators described by the Kane-Mele model. We present a unified theory for their in-plane magnetic field response leading to "anomalous", i.e. electron interaction dependent transition moments. Our predictions can be potentially used to construct unique magnetic probes with high sensitivity to electron correlations.

preprint2020arXivOpen access
Sanghita SenguptaMadalina I. FurisOleg P. SushkovValeri N. Kotov
cond-mat.mes-hall
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Sanghita SenguptaMadalina I. FurisOleg P. SushkovValeri N. Kotov

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