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Exact bosonization in arbitrary dimensions

Yu-An Chen

2020Physical Review Research44 citationsDOIOpen Access PDF

Abstract

We extend the previous results of exact bosonization, mapping from fermionic operators to Pauli matrices, in 2D and 3D to arbitrary dimensions. This bosonization map gives a duality between any fermionic system in arbitrary n spatial dimensions and a class of (n -1)-form Z 2 gauge theories in n dimensions with a modified Gauss's law. This map preserves locality and has an explicit dependence on the second Stiefel-Whitney class and a choice of spin structure on the spatial manifold. A formula for Stiefel-Whitney homology classes on lattices is derived. In the Euclidean path integral, this exact bosonization map is equivalent to introducing a topological Steenrod square term to the space-time action.

Topics & Concepts

BosonizationMathematicsDuality (order theory)Class (philosophy)Euclidean geometryOperator algebraGauge theorySquare (algebra)PhysicsPauli exclusion principleOperator (biology)Real lineMathematical physicsTerm (time)Pure mathematicsOperator theoryPath (computing)Homology (biology)Gauge (firearms)LocalityType (biology)TwistConnection (principal bundle)Thirring modelQuantum field theoryPath integral formulationHilbert spaceSpectrum (functional analysis)SpinorFermionNoncommutative and Quantum Gravity TheoriesBlack Holes and Theoretical PhysicsHomotopy and Cohomology in Algebraic Topology