Entanglement of purification and disentanglement in CFTs

Abstract

We study the entanglement of purification (EoP) of subsystem A and B in conformal field theories (CFTs) stressing on its relation to unitary operations of disentanglement, if the auxiliary subsystem A adjoins A and AB is the complement of AB. We estimate the amount of the disentanglement by using the holographic EoP conjecture as well as the inequality of Von Neumann entropy. Denote the state that produces the EoP by |M. We calculate the variance of entanglement entropy of AA in the state |(δ):=eiδ HAB|M. We find a constraint on the state |M, [KAA,M,OA]=0, where KAA,M is the modular Hamiltonian of AA in the state |M, OA∈ R(A) is an arbitrary operator. We also study three different states that can be seen as disentangled states. Two of them can produce the holographic EoP result in some limit. But we show that none of they could be a candidate of the state |M, since the distance between these three states and |M is very large.