Numerical analysis of bipartite entanglement evolution in simple cubic 1/2-spin system with additional spin 1 dopant

Abstract

AbstractThe system in consideration is a singular simple cubic cell of spins $$s = \frac{1}{2}$$ s = 1 2 doped in centre with additional spin $$S = 1$$ S = 1 . The structure is located in external magnetic field and is undergoing dissipative, Markovian evolution. The analysis of system time evolution is focused on the entanglement evaluation and determination of its behaviour over time. We found out the distinct effect of doping the structure with additional spin $$S = 1$$ S = 1 in the time evolution of the bipartite entanglement in $$\vert W \rangle $$ | W ⟩ state. We also distinguished the raising and lowering spin interaction with environment and determined its impact on decoherence. Furthermore, we have shown that the entanglement between spins is in the form of a damped superposition of Gaussian functions. Its pulsed nature results from the unitary evolution in spin structure, while the damping is caused by the influence of the environment.