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Thermal information and teleportation in two-qutrit Heisenberg XX chain model

Mohamed Omri, M. Y. Abd‐Rabbou, E. M. Khalil, S. Abdel‐Khalek

2022Alexandria Engineering Journal22 citationsDOIOpen Access PDF

Abstract

We employ the concepts of quantum Fisher information, quantum coherence, and fidelity to study a thermally environmental effect on the teleportation process. It is assumed that a single qutrit is teleported through a thermally environmental containing a two-qutrit Heisenberg XX chain under the external magnetic field (EMF) and Dzyaloshinski Moriya (DM) interaction. The energy spectrum of the physical Hamiltonian and its eigenstates are employed to obtain the thermal density matrix, which is used as a thermal teleportation environment. The Resort to the definition of quantum Fisher information for a single qubit system, we estimate the optimal behaviour concerning the EMF and temperature. The result shows that maximizing the estimation degree depends on increasing the EMF and minimizing it requires lowering temperature. The effect of temperature and DM coupling on the quantum coherence and fidelity of the teleported state is studied. It is shown that temperature destroyed the maximum bounds of the two physical quantity, while the DM coupling delays the effect of EMF at the same periods.

Topics & Concepts

QutritQubitPhysicsHamiltonian (control theory)Quantum decoherenceQuantum mechanicsQuantum teleportationTeleportationCoherence (philosophical gambling strategy)Quantum entanglementDensity matrixQuantumThermalQuantum channelStatistical physicsMathematicsThermodynamicsMathematical optimizationQuantum Information and CryptographySpectroscopy and Quantum Chemical StudiesAdvanced Thermodynamics and Statistical Mechanics
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