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From Spinon Band Topology to the Symmetry Quantum Numbers of Monopoles in Dirac Spin Liquids

Xue-Yang Song, Yin-Chen He, Ashvin Vishwanath, Chong Wang

2020Physical Review X63 citationsDOIOpen Access PDF

Abstract

The interplay of symmetry and topology has been at the forefront of recent progress in quantum matter. Here, we uncover an unexpected connection between band topology and the description of competing orders in a quantum magnet. Specifically, we show that aspects of band topology protected by crystalline symmetries determine key properties of the Dirac spin liquid (DSL), which can be defined on the honeycomb, square, triangular, and kagome lattices. At low energies, the DSL on all of these lattices is described by an emergent quantum electrodynamics (QED 3 ) with N f 4 flavors of Dirac fermions coupled to a U1 gauge field. However, the symmetry properties of the magnetic monopoles, an important class of critical degrees of freedom, behave very differently on different lattices. In particular, we show that the lattice momentum and angular momentum of monopoles can be determined from the charge (or Wannier) centers of the corresponding spinon insulator. We also show that for DSLs on bipartite lattices, there always exists a monopole that transforms trivially under all microscopic symmetries owing to the existence of a parent SU2 gauge theory. We connect our results to generalized Lieb-Schultz-Mattis theorems and also derive the time-reversal and reflection properties of monopoles. Our results indicate that recent insights into free-fermion band topology can also guide the description of strongly correlated quantum matter.

Topics & Concepts

PhysicsSpinonTopology (electrical circuits)Homogeneous spaceQuantum mechanicsQuantum phasesMagnetic monopoleGauge theoryQuantumQuantum spin liquidQuantum numberDirac (video compression format)FermionTheoretical physicsSymmetry (geometry)Quantum entanglementSpin (aerodynamics)Angular momentumLattice (music)Momentum (technical analysis)Quantum stateSpinorChern classLattice gauge theoryQuantum Hall effectQuantum field theoryDegrees of freedom (physics and chemistry)Lattice field theoryQuantum anomalous Hall effectTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsChemical and Physical Properties of Materials