反事實確定性
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在量子力學中,反事實確定性(英語:counterfactual definiteness,簡稱CFD)是指「有意義地」談論尚未進行的測量的結果的確定性的能力(即假設物體的存在和物體的屬性的能力,即使它們尚未被測量)。術語「反事實確定性」被用於物理計算的討論,尤其是與量子糾纏現象以及貝爾不等式相關的討論。[1]在此類討論中,「有意義地」意味着能夠在統計計算中將這些未測量的結果與已測量的結果同等對待。反事實確定性是與物理系統的物理和數學模型直接相關的一個(有時是假設但未說明的)方面,而不是關於未測量結果的含義的哲學問題。
參考資料
- ^ Enrique J. Galvez, "Undergraduate Laboratories Using Correlated Photons: Experiments on the Fundamentals of Quantum Mechanics," p. 2ff., says, "Bell formulated a set of inequalities, now known as 'Bell’s inequalities,' that would test non-locality. Should an experiment verify these inequalities, then nature would be demonstrated to be local and quantum mechanics incorrect. Conversely, a measurement of a violation of the inequalities would vindicate quantum mechanics』 non-local properties."
- ^ Inge S. Helland, "A new foundation of quantum mechanics," p. 386: "Counterfactual definiteness is defined as the ability to speak with results of measurements that have not been performed (i.e., the ability to assure the existence of objects, and properties of objects, even when they have not been measured").
- ^ W. M. de Muynck, W. De Baere, and H. Martens, "Interpretations of Quantum Mechanics, Joint Measurement of Incompatible Observables, and Counterfactual Definiteness" p. 54 says: "Counterfactual reasoning deals with nonactual physical processes and events and plays an important role in physical argumentations. In such reasonings it is assumed that, if some set of manipulations were carried out, then the resulting physical processes would give rise to effects which are determined by the formal laws of the theory applying in the envisaged domain of experimentation. The physical justification of counterfactual reasoning depends on the context in which it is used. Rigorously speaking, given some theoretical framework, such reasoning is always allowed and justified as soon as one is sure of the possibility of at least one realization of the pre-assumed set of manipulations. In general, in counterfactual reasoning it is even understood that the physical situations to which the reasoning applies can be reproduced at will, and hence may be realized more than once."Text was downloaded from: http://www.phys.tue.nl/ktn/Wim/i1.pdf 互聯網檔案館的存檔,存檔日期2013-04-12.