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Spin-Triplet Excitonic Insulator: The Case of Semihydrogenated Graphene

Zeyu Jiang, Wenkai Lou, Yu Liu, Yuanchang Li, Haifeng Song, Kai Chang, Wenhui Duan, Shengbai Zhang

2020Physical Review Letters67 citationsDOIOpen Access PDF

Abstract

While various excitonic insulators have been studied in the literature, due to the perceived too-small spin splitting, spin-triplet excitonic insulator is rare. In two-dimensional systems such as a semihydrogenated graphene (known as graphone), however, it is possible, as revealed by first-principles calculations coupled with Bethe-Salpeter equation. The critical temperature, given by an effective Hamiltonian, is 11.5 K. While detecting excitonic insulators is still a daunting challenge, the condensation of triplet excitons will result in spin superfluidity, which can be directly measured by a transport experiment. Nonlocal dielectric screening also leads to an unexpected phenomenon, namely, an indirect-to-direct transition crossover between single-particle band and exciton dispersion in the semihydrogenated graphene, which offers yet another test by experiment.

Topics & Concepts

GrapheneCondensed matter physicsInsulator (electricity)Spin (aerodynamics)Materials sciencePhysicsNanotechnologyOptoelectronicsThermodynamicsGraphene research and applicationsMagnetism in coordination complexes2D Materials and Applications