Concurrence (quantum computing)

In quantum information science, the concurrence is a state invariant involving qubits.

Definition

the concurrence is an entanglement monotone defined for a mixed state of two qubits as:^[1]^[2]^[3]^[4]

\mathcal{C}(\rho)\equiv\max(0,\lambda_1-\lambda_2-\lambda_3-\lambda_4)

in which $\lambda_1,...,\lambda_4$ are the eigenvalues, in decreasing order, of the Hermitian matrix

R = \sqrt{\sqrt{\rho}\tilde{\rho}\sqrt{\rho}}

with

\tilde{\rho} = (\sigma_{y}\otimes\sigma_{y})\rho^{*}(\sigma_{y}\otimes\sigma_{y})

the spin-flipped state of $\rho$ , $\sigma_y$ a Pauli spin matrix, and the eigenvalues listed in decreasing order.

Other formulations

Alternatively, the $\lambda_{i}$ 's represent the square roots of the eigenvalues of the non-Hermitian matrix $\rho\tilde{\rho}$ .^[2] Note that each $\lambda_{i}$ is a non-negative real number. From the concurrence, the entanglement of formation can be calculated.

Properties

For pure states, the concurrence is a polynomial $SL(2,\mathbb{C})^{\otimes 2}$ invariant in the state's coefficients.^[5] For mixed states, the concurrence can be defined by convex roof extension.^[3]

For the concurrence, there is monogamy of entanglement,^[6]^[7] that is, the concurrence of a qubit with the rest of the system cannot ever exceed the sum of the concurrences of qubit pairs which it is part of.

References

↑ Scott Hill and William K. Wootters, Entanglement of a Pair of Quantum Bits, 1997.
1 2 William K. Wootters, Entanglement of Formation of an Arbitrary State of Two Qubits 1998.
1 2 Roland Hildebrand, Concurrence revisited, 2007
↑ Ryszard Horodecki, Paweł Horodecki, Michał Horodecki, Karol Horodecki, Quantum entanglement, 2009
↑ D. Ž. Ðoković and A. Osterloh, On polynomial invariants of several qubits, 2009
↑ Valerie Coffman, Joydip Kundu, and William K. Wootters, Distributed entanglement, 2000
↑ Tobias J. Osborne and Frank Verstraete, General Monogamy Inequality for Bipartite Qubit Entanglement, 2006

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