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arXiv:2101.05794 [cond-mat.str-el]AbstractReferencesReviewsResources

Correlated interaction effects in three-dimensional semi-Dirac semimetal

Jing-Rong Wang, Wei Li, Chang-Jin Zhang

Published 2021-01-14Version 1

Understanding the correlation effects in unconventional topological materials, in which the fermion excitations take unusual dispersion, is an important topic in recent condensed matter physics. We study the influence of short-range four-fermion interactions on three-dimensional semi-Dirac semimetal with an unusual fermion dispersion, that is linear along two directions but quadratic along the third one. Based on renormalization group theory, we find all of 11 unstable fixed points including 5 quantum critical points, 5 bicritical points, and one tricritical point. The physical essences of the quantum critical points are determined by analyzing the susceptibility exponents for all of the source terms in particle-hole and particle-particle channels. We also verify phase diagram of the system in the parameter space carefully through numerically studying the flows of the four-fermion coupling parameters and behaviors of the susceptibility exponents. These results are helpful for us to understand the physical properties of candidate materials for three-dimensional semi-Dirac semimetal such as ZrTe$_{5}$.

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