Entanglement of Two Disjoint Intervals in Conformal Field Theory and the 2D Coulomb Gas on a Lattice
Тамара Грава, Andrew P. Kels, Erik Tonni
Abstract
In the conformal field theories given by the Ising and Dirac models, when the system is in the ground state, the moments of the reduced density matrix of two disjoint intervals and of its partial transpose have been written as partition functions on higher genus Riemann surfaces with Z_{n} symmetry. We show that these partition functions can be expressed as the grand canonical partition functions of the two-dimensional two component classical Coulomb gas on certain circular lattices at specific values of the coupling constant.
Topics & Concepts
Disjoint setsConformal field theoryPhysicsCoulombIsing modelConformal mapQuantum mechanicsRiemann surfaceMathematical physicsCoupling constantQuantum entanglementLattice (music)Pure mathematicsMathematicsCombinatoricsMathematical analysisElectronAcousticsQuantumQuantum many-body systemsBlack Holes and Theoretical PhysicsQuantum Chromodynamics and Particle Interactions