Litcius/Paper detail

Is entanglement a probe of confinement?

Niko Jokela, Javier G. Subils

2021Journal of High Energy Physics44 citationsDOIOpen Access PDF

Abstract

A bstract We study various entanglement measures in a one-parameter family of three-dimensional, strongly coupled Yang-Mills-Chern-Simons field theories by means of their dual supergravity descriptions. A generic field theory in this family possesses a mass gap but does not have a linear quark-antiquark potential. For the two limiting values of the parameter, the theories flow either to a fixed point or to a confining vacuum in the infrared. We show that entanglement measures are unable to discriminate confining theories from non-confining ones with a mass gap. This lends support on the idea that the phase transition of entanglement entropy at large- N can be caused just by the presence of a sizable scale in a theory. and just by itself should not be taken as a signal of confinement. We also examine flows passing close to a fixed point at intermediate energy scales and find that the holographic entanglement entropy, the mutual information, and the F -functions for strips and disks quantitatively match the conformal values for a range of energies.

Topics & Concepts

PhysicsQuantum entanglementMass gapSupergravityVacuum stateEntropy (arrow of time)Theoretical physicsConformal mapQuantum mechanicsConformal field theoryFixed pointPhase transitionHolographyField (mathematics)LimitingCritical phenomenaEnergy conditionNegative massQuantum field theoryField theory (psychology)Squashed entanglementQuantum electrodynamicsCritical point (mathematics)CosmologyStatistical physicsRange (aeronautics)Ultraviolet fixed pointClassical mechanicsFlow (mathematics)Vacuum energyBlack Holes and Theoretical PhysicsQuantum Chromodynamics and Particle InteractionsQuantum many-body systems