Bound entanglement is a weak form of
quantum entanglement
Quantum entanglement is the phenomenon that occurs when a group of particles are generated, interact, or share spatial proximity in a way such that the quantum state of each particle of the group cannot be described independently of the state o ...
, from which no singlets can be
distilled
Distillation, or classical distillation, is the process of separating the components or substances from a liquid mixture by using selective boiling and condensation, usually inside an apparatus known as a still. Dry distillation is the heatin ...
with local operations and classical communication (
LOCC
LOCC, or local operations and classical communication, is a method in quantum information theory where a local (product) operation is performed on part of the system, and where the result of that operation is "communicated" classically to another ...
).
Bound entanglement was discovered by M. Horodecki, P. Horodecki, and R. Horodecki. Bipartite entangled states that have a non-negative partial transpose are all bound-entangled. Moreover, a particular quantum state for 2x4 systems has been presented. Such states are not detected by the
Peres-Horodecki criterion as entangled, thus other entanglement criteria are needed for their detection. There are a number of examples for such states.
There are also multipartite entangled states that have a negative partial transpose with respect to some bipartitions, while they have a positive partial transpose to the other partitions, nevertheless, they are undistillable.
The possible existence of bipartite bound entangled states with a negative partial transpose is still under intensive study.
Properties of bound entangled states with a positive partial transpose
Bipartite bound entangled states do not exist in 2x2 or 2x3 systems, only in larger ones.
Rank-2 bound entangled states do not exist.
Bipartite bound entangled states with a positive partial transpose are useless for teleportation, as they cannot lead to a larger fidelity than the classical limit.
Bound entangled states with a positive partial transpose in 3x3 systems have a Schmidt number 2.
It has been shown that bipartite bound entangled states with a positive partial transpose exist in symmetric systems. It has also been shown that in symmetric systems multipartite bound entangled states exists for which all partial transposes are non-negative.
Asher Peres
Asher Peres ( he, אשר פרס; January 30, 1934 – January 1, 2005) was an Israeli physicist. He is well known for his work relating quantum mechanics and information theory. He helped to develop the Peres–Horodecki criterion for quantum ent ...
conjectured that bipartite bound entangled states with positive partial transpose cannot violate a Bell inequality. After a long search for counterexamples, the conjecture turned out to be false.
While no singlets can be distilled from bound entangled state, they can be still useful for some quantum information processing applications. Bound entanglement can be activated. Any entangled state can enhance the teleportation power of some other state. This holds even if the state is bound entangled. Bipartite entangled states with a non-negative partial transpose can be more useful for
quantum metrology
Quantum metrology is the study of making high-resolution and highly sensitive measurements of physical parameters using quantum theory to describe the physical systems, particularly exploiting quantum entanglement and quantum squeezing. This fie ...
than separable states.
Families of bound entangled states known analytically even for high dimension that outperform separable states for metrology.
For large dimensions they approach asymptotically the maximal precision achievable by bipartite quantum states.
There are bipartite bound entangled states that are not more useful than separable states, but if an ancilla is added to one of the subsystems then they outperform separable states in metrology.
References
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Quantum information science