Quantum nonlocality is one of the amazing properties in quantum theory.
量子非局域性是量子理论中令人感到奇妙的特征之一。
This part introduces two general methods to calculate the quantum nonlocality of entangled coherent states.
本章首先介绍了计算纠缠相干态量子非局域性的两种通用方法。
We study dynamics of quantum nonlocality and entanglement for a two-mode squeezed vacuum state in a phase damping channel.
研究了双模真空压缩态在相阻尼情况下的非定域动力学和纠缠特性。
Under the time evolution in a vacuum thermal reservoir, quantum nonlocality of the two kinds of entangled states decreases gradually and disappears finally.
在真空热库中随着时间的演化,两种纠缠态的量子非定域性逐渐减弱直至消失。
It is found that if the cavity dissipation is very weak and the average photon number of thermal environment is very small, the atom-field state can exhibit quantum nonlocality periodically.
结果显示,如果腔损耗很弱,热库的平均光子数很小,系统会周期性地展现出量子非局域性。
Especially, Bohm probes into nonlocality on the basis of the view of quantum potential and active information.
尤其是,玻姆从量子势、活动信息出发对非定域性问题进行了新的探索。
Along with the academic research of quantum computer more lucubrate, the theory of quantum state Nonlocality becomes increasingly important, especially how to measure the magnitude of Nonlocality.
随着量子计算机研究的进一步深入,量子态非局域性理论日益重要,尤其是如何度量非局域性的大小。
In front of censure from the quantum theory, especially from nonlocality, how should we view causality has become an important and urgent task.
面对来自量子理论尤其是量子非定域性理论的责难,我们又该如何看待因果关系成了一个重要而紧迫的课题。
It is important to study how the quantum property such as entanglement, coherence, and nonlocality evolve with time.
研究纠缠、相干性及非定域性这些量子特性随时间的演化具有重要意义。
This paper introduces and analyses David Bohm s causal interpretation of quantum potential and his viewpoint of nonlocality.
本文评介了玻姆的量子势因果解释及非定域性观点。
Research on Nonlocality of Some Entangled States in Quantum Information;
确定和定义应该收集的质量信息。
Research on Nonlocality of Some Entangled States in Quantum Information;
确定和定义应该收集的质量信息。
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