Quantum Physics: 1106.6105 (Xiangrong Li et al.)

Monday, May 7, 2012

1106.6105 (Xiangrong Li et al.)

Classification of general n-qubit states under stochastic local
operations and classical communication in terms of the rank of coefficient
matrix [PDF]

Xiangrong Li, Dafa Li

We solve the entanglement classification under stochastic local operations and classical communication (SLOCC) for general n-qubit states. For two arbitrary pure n-qubit states connected via local operations, we establish an equation between the two coefficient matrices associated with the states. The rank of the coefficient matrix is preserved under SLOCC and gives rise to a simple way of partitioning all the pure states of n qubits into different families of entanglement classes, as exemplified here. When applied to the symmetric states, this approach reveals that all the Dicke states |l,n> with l=1, ..., [n/2] are inequivalent under SLOCC.

View original: http://arxiv.org/abs/1106.6105

Quantum Physics

Monday, May 7, 2012

1106.6105 (Xiangrong Li et al.)

Classification of general n-qubit states under stochastic local
operations and classical communication in terms of the rank of coefficient
matrix [PDF]

No comments:

Post a Comment

Total Pageviews (last 30 days)

Monday, May 7, 2012

1106.6105 (Xiangrong Li et al.)

Classification of general n-qubit states under stochastic local operations and classical communication in terms of the rank of coefficient matrix [PDF]

No comments:

Post a Comment

Total Pageviews (last 30 days)

Classification of general n-qubit states under stochastic local
operations and classical communication in terms of the rank of coefficient
matrix [PDF]