期刊
ENTROPY
卷 24, 期 6, 页码 -出版社
MDPI
DOI: 10.3390/e24060840
关键词
quantum nonlocality; quantum entanglement; quantum Monte Carlo
资金
- Air Force Office of Scientific Research [FA8655-22-1-7175]
- Bulgarian Ministry of Education and Science [D01-401/18.12.2020]
This study compares the effects of spatial nonlocality and nonlocal causality on two entangled electrons. It finds that spatial entanglement can be accurately predicted using the TDQMC method, while nonlocal causality only leads to small oscillations in the observed electron trajectories.
Using numerically exact solution of the time-dependent Schrodinger equation together with time-dependent quantum Monte Carlo (TDQMC) calculations, here we compare the effects of spatial nonlocality versus nonlocal causality for the ground state and for real-time evolution of two entangled electrons in parabolic potential in one spatial dimension. It was found that the spatial entanglement quantified by the linear quantum entropy is predicted with good accuracy using the spatial nonlocality, parameterized naturally within the TDQMC approach. At the same time, the nonlocal causality predicted by the exact solution leads to only small oscillations in the quantum trajectories which belong to the idler electron as the driven electron is subjected to a strong high frequency electric field, without interaction between the electrons.
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