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General Theory of Momentum-Space Nonsymmorphic Symmetry

Chen Zhang, Z. Y. Chen, Zheng Zhang, Y. X. Zhao

2023Physical Review Letters27 citationsDOIOpen Access PDF

Abstract

As a fundamental concept of all crystals, space groups are partitioned into symmorphic groups and nonsymmorphic groups. Each nonsymmorphic group contains glide reflections or screw rotations with fractional lattice translations, which are absent in symmorphic groups. Although nonsymmorphic groups ubiquitously exist on real-space lattices, on the reciprocal lattices in momentum space, the ordinary theory only allows symmorphic groups. In this work, we develop a novel theory for momentum-space nonsymmorphic space groups (k-NSGs), utilizing the projective representations of space groups. The theory is quite general: Given any k-NSGs in any dimensions, it can identify the real-space symmorphic space groups (r-SSGs) and construct the corresponding projective representation of the r-SSG that leads to the k-NSG. To demonstrate the broad applicability of our theory, we show these projective representations and therefore all k-NSGs can be realized by gauge fluxes over real-space lattices. Our work fundamentally extends the framework of crystal symmetry, and therefore can accordingly extend any theory based on crystal symmetry, for instance, the classification crystalline topological phases.

Topics & Concepts

Space (punctuation)Space groupTheoretical physicsPosition and momentum spacePhysicsLattice (music)Group (periodic table)Group theorySymmetry (geometry)Reciprocal latticeSymmetry groupPure mathematicsTopology (electrical circuits)Quantum mechanicsComputer scienceMathematicsGeometryCombinatoricsOperating systemAcousticsDiffractionX-ray crystallographyTopological Materials and PhenomenaCold Atom Physics and Bose-Einstein CondensatesAdvanced Condensed Matter Physics
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