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- Title
Effects of intrinsic decoherence on quantum coherence and correlations between spins within a two-dimensional honeycomb lattice graphene layer system.
- Authors
Bouafia, Zakaria; Elghaayda, Samira; Mansour, Mostafa
- Abstract
This research delves into the influence of intrinsic decoherence on the behavior of quantum correlations and coherence between two interacting qubits in a graphene-based system. To evaluate the amount of nonclassical correlations in the system, we employ local quantum uncertainty (LQU), and to assess quantum coherence we use the relative entropy of coherence (C r) and l 1 -norm (C l 1 ). We assume that the system is initially prepared in an extended-Werner-like (EWL) state, and we investigate how these quantifiers evolve over time and examine their sensitivity to various graphene layer system parameters, mixture parameter of the initial state and the intrinsic decoherence rate. Our results indicate that by adjusting the wave number operators, decreasing the intrinsic decoherence rate, and increasing the initial state mixing parameter, it is possible to enhance both quantum correlations and coherence within the two-dimensional honeycomb lattice system. In addition, we found that quantum coherence is more resilient to intrinsic decoherence than LQU, moreover, the l 1 -norm is more robust than the relative entropy of coherence.
- Subjects
QUANTUM correlations; DECOHERENCE (Quantum mechanics); HONEYCOMB structures; GRAPHENE; WAVENUMBER; QUANTUM coherence; QUANTUM entropy
- Publication
Modern Physics Letters B, 2024, Vol 38, Issue 1, p1
- ISSN
0217-9849
- Publication type
Article
- DOI
10.1142/S0217984923502032