Quantum symmetry breaking and physical inequivalence: the case of ferromagnetism

Synthese 198 (9):8127-8148 (2020)
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Abstract

This paper discusses an outstanding issue in philosophy of physics concerning the relation between quantum symmetries and the notion of physical equivalence. Specifically, it deals with a dilemma arising for quantum symmetry breaking that was posed by Baker, who claimed that if two ground states are connected by a symmetry, even when it is broken, they must be physically equivalent. However, I argue that the dilemma is just apparent. In fact, I object to Baker’s conclusion by showing that the two thermodynamical phases of a ferromagnet, which are connected by the so-called flip-flop symmetry, are physically inequivalent, thereby providing a counter-example to his claim.

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10.1007/s11229-020-02561-y

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References found in this work

Interpreting Quantum Theories: The Art of the Possible.Laura Ruetsche - 2011 - Oxford, GB: Oxford University Press UK.
The metaphysics of space‐time substantivalism.Carl Hoefer - 1996 - Journal of Philosophy 93 (1):5-27.
Are Rindler Quanta Real? Inequivalent Particle Concepts in Quantum Field Theory.Rob Clifton & Hans Halvorson - 2001 - British Journal for the Philosophy of Science 52 (3):417-470.
Interpreting quantum field theory.Laura Ruetsche - 2002 - Philosophy of Science 69 (2):348-378.

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