Evidence for Bound Entangled States with Negative Partial Transpose
Abstract
We exhibit a two-parameter family of bipartite mixed states bc, in a d d Hilbert space, which are negative under partial transposition (NPT), but for which we conjecture that no maximally entangled pure states in 2 2 can be distilled by local quantum operations and classical communication (LQ+CC). Evidence for this undistillability is provided by the result that, for certain states in this family, we cannot extract entanglement from any arbitrarily large number of copies of bc using a projection on 2 2. These states are canonical NPT states in the sense that any bipartite mixed state in any dimension with NPT can be reduced by LQ+CC operations to an NPT state of the bc form. We show that the main question about the distillability of mixed states can be formulated as an open mathematical question about the properties of composed positive linear maps.
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