Entanglement Entropy in a Non-Conformal Background
arXiv:1610.01835 · doi:10.1016/j.physletb.2017.05.055
Abstract
We use gauge-gravity duality to compute entanglement entropy in a non-conformal background with an energy scale $Î$. At zero temperature, we observe that entanglement entropy decreases by raising $Î$. However, at finite temperature, we realize that both $\fracÎ{T}$ and entanglement entropy rise together. Comparing entanglement entropy of the non-conformal theory, $S_{A(N)}$, and of its conformal theory at the $UV$ limit, $ S_{A(C)}$, reveals that $S_{A(N)}$ can be larger or smaller than $S_{A(C)}$, depending on the value of $\fracÎ{T}$.
5 pages, 3 figures, published version