Entanglement Properties of Boundary State and Thermalization

Abstract

We discuss the regularized boundary state e-τ0 H|Ba on two aspects in both 2D CFT and higher dimensional free field theory. One is its entanglement and correlation properties, which exhibit exponential decay in 2D CFT, the parameter 1/τ0 works as a mass scale. The other concerns with its time evolution, i.e., e-i tHe-τ0 H|Ba. We investigate the Kubo-Martin-Schwinger (KMS) condition on correlation function of local operators to detect the thermal properties. Interestingly we find the correlation functions in the initial state e-τ0 H|Ba also partially satisfy the KMS condition. In the limit t ∞, the correlators will exactly satisfy the KMS condition. We generally analyse quantum quench by a pure state and obtain some constraints on the possible form of 2-point correlation function in the initial state if assuming they satisfies KMS condition in the final state . As a byproduct we find in an large τ0 limit the thermal property of 2-point function in e-τ0 H|Ba also appears.