Chiral Central Charge from a Single Bulk Wave Function
Isaac H. Kim, Bowen Shi, Kohtaro Kato, Victor V. Albert
Abstract
A (2+1)-dimensional gapped quantum many-body system can have a topologically protected energy current at its edge. The magnitude of this current is determined entirely by the temperature and the chiral central charge, a quantity associated with the effective field theory of the edge. We derive a formula for the chiral central charge that, akin to the topological entanglement entropy, is completely determined by the many-body ground state wave function in the bulk. According to our formula, nonzero chiral central charge gives rise to a topological obstruction that prevents the ground state wave function from being real valued in any local product basis.
Topics & Concepts
PhysicsQuantum entanglementCentral chargeGround stateWave functionCharge (physics)Topological quantum numberQuantum mechanicsTopology (electrical circuits)Charge conservationFunction (biology)Current (fluid)QuantumGeometryCombinatoricsEvolutionary biologyThermodynamicsConformal mapBiologyMathematicsQuantum and electron transport phenomenaQuantum many-body systemsTopological Materials and Phenomena