Local Two-Body Parent Hamiltonians for the Entire Jain Sequence
Sumanta Bandyopadhyay, Gerardo Ortíz, Zohar Nussinov, Alexander Seidel
Abstract
Using an algebra of second-quantized operators, we develop local two-body parent Hamiltonians for all unprojected Jain states at filling factor n/(2np+1), with integer n and (half-)integer p. We rigorously establish that these states are uniquely stabilized and that zero mode counting reproduces mode counting in the associated edge conformal field theory. We further establish the organizing "entangled Pauli principle" behind the resulting zero mode paradigm and unveil an emergent SU(n) symmetry characteristic of the fixed point physics of the Jain quantum Hall fluid.
Topics & Concepts
Zero modePhysicsInteger (computer science)Pauli exclusion principleZero (linguistics)Conformal mapMathematical physicsQuantum Hall effectSequence (biology)Pauli matricesZero-point energyQuantum mechanicsConformal field theoryCombinatoricsMode (computer interface)Theoretical physicsMathematicsMagnetic fieldGeometryBiologyProgramming languageComputer sciencePhilosophyOperating systemGeneticsLinguisticsQuantum and electron transport phenomenaQuantum Information and CryptographyMechanical and Optical Resonators