We investigate the impact of intrinsic decoherence (ID) on non-classical correlations in a Heisenberg qubit-qutrit XXZ system with Dzyaloshinsky-Moriya (DM) interaction and an external inhomogeneous magnetic field. Using uncertainty-induced nonlocality ( \(\mathcal {U}_C\) ), local quantum uncertainty (LQU), and logarithmic negativity ( \(\mathcal {L}_{\mathcal {N}}\) ), we assess skew information correlations and bipartite entanglement. Our results show that adjusting system parameters can mitigate the negative effects of ID. \(\mathcal {U}_C\) effectively detects quantum correlations, and tweaking the mixture parameter enhances skew information correlations, though an external uniform magnetic field reduces them.

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Dynamics of Quantum Resources in Hybrid System Under Decoherence Effect

  • Essalha Chaouki,
  • Mostafa Mansour

摘要

We investigate the impact of intrinsic decoherence (ID) on non-classical correlations in a Heisenberg qubit-qutrit XXZ system with Dzyaloshinsky-Moriya (DM) interaction and an external inhomogeneous magnetic field. Using uncertainty-induced nonlocality ( \(\mathcal {U}_C\) ), local quantum uncertainty (LQU), and logarithmic negativity ( \(\mathcal {L}_{\mathcal {N}}\) ), we assess skew information correlations and bipartite entanglement. Our results show that adjusting system parameters can mitigate the negative effects of ID. \(\mathcal {U}_C\) effectively detects quantum correlations, and tweaking the mixture parameter enhances skew information correlations, though an external uniform magnetic field reduces them.