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Non-Hermitian Strongly Interacting Dirac Fermions

Xue-Jia Yu, Zhiming Pan, Limei Xu, Zixiang Li

2024Physical Review Letters44 citationsDOI

Abstract

Exotic quantum phases and phase transition in the strongly interacting Dirac systems have attracted tremendous interests. On the other hand, non-Hermitian physics, usually associated with dissipation arising from the coupling to environment, emerges as a frontier of modern physics in recent years. In this Letter, we investigate the interplay between non-Hermitian physics and strong correlation in Dirac-fermion systems. We generalize the projector quantum Monte-Carlo (PQMC) algorithm to the non-Hermitian interacting fermionic systems. Employing PQMC simulation, we decipher the ground-state phase diagram of the honeycomb Hubbard model with spin resolved non-Hermitian asymmetric hopping processes. The antiferromagnetic (AFM) ordering induced by Hubbard interaction is enhanced by the non-Hermitian asymmetric hopping. Combining PQMC simulation and renormalization group analysis, we reveal that the quantum phase transition between Dirac semi-metal and AFM phases belongs to Hermitian chiral XY universality class, implying that a Hermitian Gross-Neveu transition is emergent at the quantum critical point although the model is non-Hermitian.

Topics & Concepts

PhysicsHermitian matrixQuantum phase transitionRenormalization groupDirac fermionQuantum Monte CarloHubbard modelQuantum mechanicsQuantumFermionTheoretical physicsMonte Carlo methodSuperconductivityStatisticsMathematicsQuantum Mechanics and Non-Hermitian PhysicsTopological Materials and PhenomenaAlgebraic structures and combinatorial models
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