Investigating a Class of 2⊗ 2⊗ d Chessboard Density Matrices via Linear and Non-linear Entanglement Witnesses Constructed by Exact Convex Optimization
نویسندگان
چکیده
Here we consider a class of 2⊗ 2⊗ d chessboard density matrices starting with threequbit ones which have positive partial transposes with respect to all subsystems. To investigate the entanglement of these density matrices, we use the entanglement witness approach. For constructing entanglement witnesses (EWs) detecting these density matrices, we attempt to convert the problem to an exact convex optimization problem. To this aim, we map the convex set of separable states into a convex region, named feasible region, and consider cases that the exact geometrical shape of feasible region can be obtained. In this way, various linear and non-linear EWs are constructed. The optimality and decomposability of some of introduced EWs are also considered. Furthermore, the detection of the density matrices by introduced EWs are discussed analytically and numerically.
منابع مشابه
A general algorithm for manipulating non-linear and linear entanglement witnesses by using exact convex optimization
A generic algorithm is developed to reduce the problem of obtaining linear and nonlinear entanglement witnesses of a given quantum system, to convex optimization problem. This approach is completely general and can be applied for the entanglement detection of any N-partite quantum system. For this purpose, a map from convex space of separable density matrices to a convex region called feasible ...
متن کاملBell-states diagonal relativistic multispinor entanglement witnesses in arbitrary dimensions
Two kinds of Bell-states diagonal relativistic multispinor entanglement witnesses (EW) are constructed by using the Euclidean representation of the algebra of Dirac γ matrices in the space-time of arbitrary dimension d, where the first kind can detect some Bell-states diagonal m-partite multispinor bound entangled states in Hilbert space of dimension 2m⌊d/2⌋, including the bipartite relativisti...
متن کاملBell-states diagonal entanglement witnesses for relativistic and non-relativistic multispinor systems in arbitrary dimensions
Two kinds of Bell-states diagonal (BSD) entanglement witnesses (EW) are constructed by using the algebra of Dirac γ matrices in the space-time of arbitrary dimension d, where the first kind can detect some BSD relativistic and non-relativistic m-partite multispinor bound entangled states in Hilbert space of dimension 2m⌊d/2⌋, including the bipartite Bell-type and iso-concurrence type states in ...
متن کاملManipulating Multi-qudit Entanglement Witnesses by Using Linear Programming
A new class of entanglement witnesses (EWs) called reduction type entanglement witnesses is introduced, which can detect some multi-qudit entangeled states including PPT ones with Hilbert space of dimension d1 ⊗ d2 ⊗ ... ⊗ dn . The novelty of this work comes from the fact that the feasible regions turn out to be convex polygons, hence the manipulation of these EWs reduces to linear programming ...
متن کاملMulti-qubit stabilizer and cluster entanglement witnesses
One of the problems concerning entanglement witnesses (EWs) is the construction of them by a given set of operators. Here several multi-qubit EWs called stabilizer EWs are constructed by using the stabilizer operators of some given multi-qubit states such as GHZ, cluster and exceptional states. The general approach to manipulate the multi-qubit stabilizer EWs by exact(approximate) linear progra...
متن کامل