Litcius/Paper detail

Bipartite entanglement of decohered mixed states generated from maximally entangled cluster states

Mostafa Mansour, Saeed Haddadi

2021Modern Physics Letters A25 citationsDOI

Abstract

In this work, we investigate the bipartite entanglement of decohered mixed states generated from maximally entangled cluster states of [Formula: see text] qubits physical system. We introduce the disconnected cluster states for an ensemble of [Formula: see text] non-interacting qubits and we give the corresponding separable density matrices. The maximally entangled states can be generated from disconnected cluster states, by assuming that the dynamics of the multi-qubit system is governed by a quadratic Hamiltonian of Ising type. When exposed to a local noisy interaction with the environment, the multi-qubit system evolves from its initial pure maximally entangled state to a decohered mixed state. The decohered mixed states generated from bipartite, tripartite and multipartite maximally entangled cluster states are explicitly expressed and their bipartite entanglements are investigated.

Topics & Concepts

Cluster stateMultipartite entanglementPhysicsQuantum entanglementPeres–Horodecki criterionBipartite graphW stateQubitLOCCQuantum mechanicsSeparable stateMultipartiteHamiltonian (control theory)Squashed entanglementCluster (spacecraft)State (computer science)Quantum discordCombinatoricsQuantumMathematicsAlgorithmMathematical optimizationProgramming languageComputer scienceGraphQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications