Higher-dimensional Jordan-Wigner transformation and auxiliary Majorana fermions
Kangle Li, Hoi Chun Po
Abstract
We discuss a scheme for performing Jordan-Wigner transformation for various lattice fermion systems in two and three dimensions which keeps internal and spatial symmetries manifest. The correspondence between fermionic and bosonic operators is established with the help of auxiliary Majorana fermions. The current construction is applicable to general lattices with even coordination numbers and an arbitrary number of fermion flavors. The approach is demonstrated on the single-orbital square, triangular, and cubic lattices for spin-$1/2$ fermions. We also discuss the relation to some quantum spin liquid models.
Topics & Concepts
FermionMAJORANAPhysicsSpin (aerodynamics)Quantum mechanicsLattice (music)Homogeneous spaceTransformation (genetics)Theoretical physicsWigner crystalMathematicsElectronChemistryBiochemistryGeometryGeneAcousticsThermodynamicsAdvanced Condensed Matter PhysicsTopological Materials and PhenomenaQuantum many-body systems