为什么大自然中不存在更强的非定域性。
非定域性取决于两个因素。
本文评介了玻姆的量子势因果解释及非定域性观点。
This paper introduces and analyses David Bohm s causal interpretation of quantum potential and his viewpoint of nonlocality.
本文旨在探究量子非定域性对因果关系产生的影响。
This paper aims to explore the impact of causation from the quantum non-locality.
本文从介绍纠缠和纠缠态出发,着重讨论纠缠的本质和非定域性概念。
This paper is started by reviewing the entanglement and entanglement state, and then focuses on the essence of entanglement and the notion of non-locality.
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。
It is important to study how the quantum property such as entanglement, coherence, and nonlocality evolve with time.
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。
Under the time evolution in a vacuum thermal reservoir, quantum nonlocality of the two kinds of entangled states decreases gradually and disappears finally.
量子非定域性对因果关系的责难又一次为因果关系的研究注入了新的元素,为我们提供了新的问题和研究素材。
Oppositely, the blame from quantum non-locality to the causality has injected new elements, providing us with new problems and research material.
场的相互作用大多都是非定域,这种非定域性也可以看作是对场以及场的质量做了某种特殊的“类重整化”修正。
The action of them are almost all nonlocal, and this kind of nonlocal property can be understood as some kind of "renormalization" of field and the mass of field.
本周刊登在《科学》杂志上的一项新研究,便讨论了量子理论中两个最重要也是最令人费解的性质:海森伯格的不确定性原理和非定域性。
The new research, published this week in the journal Science, deals with two of the theory's most important and mind-bending properties: Heisenberg's Uncertainty Principle and nonlocality.
阐释了退相干解释的纲领,并在退相干解释纲领下,分析了经典世界中的定域性和量子力学中的非充分决定论的因果关系。
This paper explains the programme of decoherence. And under the programme of decoherence, it also analyzes the locality in the classical world and causation without determinism in quantum mechanics.
研究结果显示了纳米金属磁性多层膜材料的微结构空间位置相关性和电磁输运过程奇异的非定域特性。
The microstructure space dependence and non-localization electromagnetic transmission were found, which demonstrated the mesoscopic characteristic of the nanometer magnetic multilayers materials.
研究结果显示了纳米金属磁性多层膜材料的微结构空间位置相关性和电磁输运过程奇异的非定域特性。
The microstructure space dependence and non-localization electromagnetic transmission were found, which demonstrated the mesoscopic characteristic of the nanometer magnetic multilayers materials.
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