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Numerical and analytical results for geometric measure of coherence and geometric measure of entanglement

Zhou Zhang, Yue Dai, Yuli Dong, Chengjie Zhang

2020Scientific Reports15 citationsDOIOpen Access PDF

Abstract

Quantifying coherence and entanglement is extremely important in quantum information processing. Here, we present numerical and analytical results for the geometric measure of coherence, and also present numerical results for the geometric measure of entanglement. On the one hand, we first provide a semidefinite algorithm to numerically calculate geometric measure of coherence for arbitrary finite-dimensional mixed states. Based on this semidefinite algorithm, we test randomly generated single-qubit states, single-qutrit states, and a special kind of d-dimensional mixed states. Moreover, we also obtain an analytical solution of geometric measure of coherence for a special kind of mixed states. On the other hand, another algorithm is proposed to calculate the geometric measure of entanglement for arbitrary two-qubit and qubit-qutrit states, and some special kinds of higher dimensional mixed states. For other states, the algorithm can get a lower bound of the geometric measure of entanglement. Randomly generated two-qubit states, the isotropic states and the Werner states are tested. Furthermore, we compare our numerical results with some analytical results, which coincide with each other.

Topics & Concepts

Measure (data warehouse)Quantum entanglementCoherence (philosophical gambling strategy)Computer scienceStatistical physicsMathematicsStatisticsPhysicsData miningQuantum mechanicsQuantumQuantum Information and CryptographyAdvanced Thermodynamics and Statistical MechanicsQuantum Mechanics and Applications