Hypergraph-theoretic charaterizations for LOCC incomparable ensembles of multipartite CAT states

Abstract

Using graphs and hypergraphs to systematically model collections of arbitrary subsets of parties representing ensembles (or collections) of shared multipartite CAT states, we study transformations between such ensembles under local operations and classical communication (LOCC). We show using partial entropic criteria, that any two such distinct ensembles represented by r-uniform hypergraphs with the same number of hyperedges (CAT states), are LOCC incomparable for even integers r≥ 2, generalizing results in mscthesis,sin:pal:kum:sri. We show that the cardinality of the largest set of mutually LOCC incomparable ensembles represented by r-uniform hypergraphs for even r≥ 2, is exponential in the number of parties. We also demonstrate LOCC incomparability between two ensembles represented by 3-uniform hypergraphs where partial entropic criteria do not help in establishing incomparability. Further we characterize LOCC comparability of EPR graphs in a model where LOCC is restricted to teleportation and edge destruction. We show that this model is equivalent to one in which LOCC transformations are carried out through a sequence of operations where each operation adds at most one new EPR pair.