Superconductivity, broken gauge symmetry, and the Higgs mechanism

Superconductivity, broken gauge symmetry, and the Higgs mechanism

The association of broken symmetries with phase transitions is ubiquitous in condensed matter physics: crystals break translational symmetry, magnets break rotational symmetry, and superconductors break gauge symmetry. However, despite the frequency with which it is made, this last statement is a pa...

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Veröffentlicht in:American journal of physics 2019-06, Vol.87 (6), p.436-443
1. Verfasser: Poniatowski, Nicholas R.
Format: Artikel
Sprache:eng
Schlagworte:
Crystals
Electromagnetism
Phase transitions
Superconductors
Symmetry
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Zusammenfassung:The association of broken symmetries with phase transitions is ubiquitous in condensed matter physics: crystals break translational symmetry, magnets break rotational symmetry, and superconductors break gauge symmetry. However, despite the frequency with which it is made, this last statement is a paradox. A gauge symmetry, in this case the U(1) gauge symmetry of electromagnetism, is a redundancy in our description of nature, so the notion of breaking such a “symmetry” is unphysical. Here, we will discuss how gauge symmetry breaks, and doesn't, inside a superconductor, and explore the fundamental relationship between gauge invariance and the striking phenomena observed in superconductors.
ISSN:0002-9505
1943-2909
DOI:10.1119/1.5093291