What question did this study set out to answer?

This research aims to explore quantum entanglement in two-spin systems under multiple pulse NMR spin locking and dephasing relaxation.

March 26, 2026

Quantum Entanglement in Two-Spin Systems in Multiple Pulse NMR Spin Locking with Dephasing Relaxation

Key Points

This research aims to explore quantum entanglement in two-spin systems under multiple pulse NMR spin locking and dephasing relaxation.
Analyzed two-spin systems using multiple pulse NMR spin locking techniques.
Employed the Lindblad equation to derive the density matrix for various initial temperatures.
Examined the relationship between concurrence and dephasing relaxation rate.
Determined how the concurrence changes with varying dephasing relaxation rates.
Identified a critical temperature for the emergence of entanglement in the spin systems.

Abstract

Quantum entanglement in two-spin systems in multiple pulse NMR spin locking with dephasing relaxation is studied on the basis of the Lindblad equation. An exact solution for the density matrix of the system for any initial temperature is found. The dependence of the concurrence (which determines quantum entanglement) on the dephasing relaxation rate and the parameters of the multiple pulse sequence is investigated. For different rates of dephasing relaxation, the critical temperature at which entanglement arises is found.

Bookmark

Cite This Study

Bochkin et al. (Mon,) studied this question.

synapsesocial.com/papers/69c4cc69fdc3bde4489179c4 https://doi.org/https://doi.org/10.1134/s1063739725601109

Bookmark