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Modular Hamiltonians for the massless Dirac field in the presence of a boundary

Mihail Mintchev, Erik Tonni

2021Journal of High Energy Physics38 citationsDOIOpen Access PDF

Abstract

A bstract We study the modular Hamiltonians of an interval for the massless Dirac fermion on the half-line. The most general boundary conditions ensuring the global energy conservation lead to consider two phases, where either the vector or the axial symmetry is preserved. In these two phases we derive the corresponding modular Hamiltonian in explicit form. Its density involves a bi-local term localised in two points of the interval, one conjugate to the other. The associated modular flows are also established. Depending on the phase, they mix fields with different chirality or charge that follow different modular trajectories. Accordingly, the modular flow preserves either the vector or the axial symmetry. We compute the two-point correlation functions along the modular flow and show that they satisfy the Kubo-Martin-Schwinger condition in both phases. The entanglement entropies are also derived.

Topics & Concepts

Massless particleModular designVector fieldHamiltonian (control theory)Quantum entanglementPhysicsBoundary value problemFermionModular groupModular invarianceQuantum mechanicsMathematicsPure mathematicsComputer scienceQuantumOperating systemMathematical optimizationMechanicsQuantum many-body systemsBlack Holes and Theoretical PhysicsAlgebraic structures and combinatorial models
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