quantum information science Quantum information science is a field that combines the principles of quantum mechanics with information theory to study the processing, analysis, and transmission of information. It covers both theoretical and experimental aspects of quantum phys ...

, the concurrence is a state invariant involving qubits.

Definition

The concurrence is an entanglement monotone (a way of measuring entanglement) defined for a mixed state of two

qubit In quantum computing, a qubit () or quantum bit is a basic unit of quantum information—the quantum version of the classic binary bit physically realized with a two-state device. A qubit is a two-state (or two-level) quantum-mechanical syste ...

s as: :

\mathcal(\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

with :

\tilde = (\sigma_\otimes\sigma_)\rho^(\sigma_\otimes\sigma_)

the spin-flipped state of

\rho

and

\sigma_y

a Pauli spin matrix. The complex conjugation

^*

is taken in the eigenbasis of the Pauli matrix

\sigma_z.

Also, here, for a positive semidefinite matrix

A

\sqrt

denotes a positive semidefinite matrix

B

such that

B^2=A

. Note that

B

is a unique matrix so defined. A generalized version of concurrence for multiparticle pure states in arbitrary dimensions (including the case of continuous-variables in infinite dimensions) is defined as: :

\mathcal_(\rho)=\sqrt

in which

\rho_

is the reduced

density matrix In quantum mechanics, a density matrix (or density operator) is a matrix used in calculating the probabilities of the outcomes of measurements performed on physical systems. It is a generalization of the state vectors or wavefunctions: while th ...

(or its continuous-variable analogue) across the bipartition

\mathcal

of the pure state, and it measures how much the complex amplitudes deviate from the constraints required for tensor separability. The faithful nature of the measure admits necessary and sufficient conditions of separability for pure states.

Other formulations

Alternatively, the

\lambda_

's represent the square roots of the eigenvalues of the non-Hermitian matrix

\rho\tilde

. Note that each

\lambda_

is a non-negative real number. From the concurrence, the entanglement of formation can be calculated.

Properties

For pure states, the ''square'' of the concurrence (also known as the ''tangle'') is a polynomial

SL(2,\mathbb)^

invariant in the state's coefficients. For mixed states, the concurrence can be defined by convex roof extension. For the tangle, there is monogamy of entanglement, that is, the tangle of a qubit with the rest of the system cannot ever exceed the sum of the tangles of qubit pairs which it is part of.

References

{{DEFAULTSORT:Concurrence (Quantum Computing) Theoretical computer science Quantum information science