量子力学，涌现和基本原理

Q4 Arts and Humanities

Argumenta Philosophica Pub Date : 2016-06-06 DOI:10.21825/philosophica.82111

Peter J. Lewis

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引用次数: 0

摘要

量子力学可以说为强涌现提供了最好的证据。纠缠的粒子对显然具有一些特性，这些特性不能叠加到单个粒子的特性上。但与此同时，量子力学是一个寻找强涌现证据的糟糕地方:对该理论的解释争议如此之大，以至于从中得出任何形而上学的结论都是有风险的。我浏览了基于纠缠的强涌现的标准论证，并展示了它是如何建立在关于量子世界本体论的不可靠假设之上的。特别地，我考虑了两种反对意见:论点涉及贝尔定理，其前提经常被拒绝，论点建立在对部分和整体的有争议的描述上。我对这两种反对意见都作出了回应，并指出，尽管有一些重要的警告，但基于量子力学的涌现论仍然是完整的。

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Quantum mechanics, emergence, and fundamentality

Quantum mechanics arguably provides the best evidence we have for strong emergence. Entangled pairs of particles apparently have properties that fail to supervene on the properties of the particles taken individually. But at the same time, quantum mechanics is a terrible place to look for evidence of strong emergence: the interpretation of the theory is so contested that drawing any metaphysical conclusions from it is risky at best. I run through the standard argument for strong emergence based on entanglement, and show how it rests on shaky assumptions concerning the ontology of the quantum world. In particular, I consider two objections: that the argument involves Bell's theorem, whose premises are often rejected, and that the argument rests on a contested account of parts and wholes. I respond to both objections, showing that, with some important caveats, the argument for emergence based on quantum mechanics remains intact.

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来源期刊

Argumenta Philosophica Arts and Humanities-Visual Arts and Performing Arts

CiteScore

0.10

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0.00%

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