Simple criteria for the SLOCC classification

Abstract: We put forward an alternative approach to the SLOCC classification of entanglement states of three-qubit and four-qubit systems. By directly solving matrix equations, we obtain the relations satisfied by the amplitudes of states. The relations are readily tested since in them only addition, subtraction and multiplication occur.

“…There are many true entangled states with the maximal residual entanglement. For example, when n = 4, |C = (|3 + |5 + |6 + |9 + |10 + |12)/ √ 6 [13]. τ (C) = 1.…”

Stochastic local operations and classical communication invariant and the residual entanglement fornqubits

“…There are many true entangled states with the maximal residual entanglement. For example, when n = 4, |C = (|3 + |5 + |6 + |9 + |10 + |12)/ √ 6 [13]. τ (C) = 1.…”

Stochastic local operations and classical communication invariant and the residual entanglement fornqubits

“…As discussed before, τ (ψ) happens to be Coffman et al's residual entanglement for three qubits. From (5) of p. 429 in [18],…”

An entanglement measure for n qubits

“…In recent years, a lot of efforts have been made on classification of multipartite entanglement under SLOCC [3,[9][10][11][12][13][14][15][16][17][18]. In [15] an inductive method of classifying n-qubit entanglement under SLOCC has been presented, from which the entanglement classifica-tion of three and four qubits have been obtained.…”

Classification of Bipartite and Tripartite Qutrit Entanglement Under SLOCC