TY - JOUR
T1 - Crystalline axion electrodynamics in charge-ordered Dirac semimetals
AU - May-Mann, Julian
AU - Hirsbrunner, Mark R.
AU - Gioia, Lei
AU - Hughes, Taylor L.
N1 - Publisher Copyright:
© 2024 American Physical Society.
PY - 2024/10/15
Y1 - 2024/10/15
N2 - Three-dimensional Dirac semimetals can be driven into an insulating state by coupling to a charge density wave (CDW) order. Here, we consider the quantized crystalline responses of such charge-ordered Dirac semimetals, which we dub Dirac-CDW insulators, in which charge is bound to disclination defects of the lattice. Using analytic and numeric methods we show the following. First, when the CDW is lattice commensurate, disclination-line defects of the lattice have a quantized charge per length. Second, when the CDW is inversion symmetric, disclinations of the lattice have a quantized electric polarization. Third, when the CDW is lattice commensurate and inversion symmetric, disclinations are characterized by a "disclination filling anomaly,"a quantized difference in the total charge bound to disclination lines of Dirac-CDW with open and periodic boundaries. We construct an effective response theory that captures the topological responses of the Dirac-CDW insulators in terms of a total derivative term, denoted the RF term. The RF term describes the crystalline analog of the axion electrodynamics that are found in Weyl semimetal-CDW insulators. We also use the crystalline responses and corresponding response theories to classify the strongly correlated topological phases of three-dimensional Dirac semimetals.
AB - Three-dimensional Dirac semimetals can be driven into an insulating state by coupling to a charge density wave (CDW) order. Here, we consider the quantized crystalline responses of such charge-ordered Dirac semimetals, which we dub Dirac-CDW insulators, in which charge is bound to disclination defects of the lattice. Using analytic and numeric methods we show the following. First, when the CDW is lattice commensurate, disclination-line defects of the lattice have a quantized charge per length. Second, when the CDW is inversion symmetric, disclinations of the lattice have a quantized electric polarization. Third, when the CDW is lattice commensurate and inversion symmetric, disclinations are characterized by a "disclination filling anomaly,"a quantized difference in the total charge bound to disclination lines of Dirac-CDW with open and periodic boundaries. We construct an effective response theory that captures the topological responses of the Dirac-CDW insulators in terms of a total derivative term, denoted the RF term. The RF term describes the crystalline analog of the axion electrodynamics that are found in Weyl semimetal-CDW insulators. We also use the crystalline responses and corresponding response theories to classify the strongly correlated topological phases of three-dimensional Dirac semimetals.
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U2 - 10.1103/PhysRevB.110.155110
DO - 10.1103/PhysRevB.110.155110
M3 - Article
AN - SCOPUS:85206342829
SN - 2469-9950
VL - 110
JO - Physical Review B
JF - Physical Review B
IS - 15
M1 - 155110
ER -