Entanglement and majorization in (1+1)-dimensional quantum systems -: art. no. 052327

Motivated by the idea of entanglement loss along renormalization group flows, analytical majorization relations are proven for the ground state of (1+1)-dimensional conformal field theories. For any of these theories, majorization is proven to hold in the spectrum of the reduced density matrices in a bipartite system when changing the size L of one of the subsystems. Continuous majorization along uniparametric flows is also proven as long as part of the conformal structure is preserved under the deformation and some monotonicity conditions hold as well. As particular examples of our derivations, we study the cases of the XX, Heisenberg, and XY quantum spin chains. Our results provide in a rigorous way explicit proofs for all the majorization conjectures raised by Latorre, Lutken, Rico, Vidal, and Kitaev in previous papers on quantum spin chains.