Related papers: Chimeric states of matter: Meissner effect without superconductivity

Chimeric states of matter: Meissner effect without superconductivity

URL: http://arxiv.org/abs/2511.00146v1
Date: Fri, 31 Oct 2025 18:00:00 GMT
Title: Chimeric states of matter: Meissner effect without superconductivity
Authors: Michael J Landry, Mingda Li,
Abstract summary: We introduce chimeric states of matter, in which aspects of broken and unbroken phases coexist.<n>Meissner effect can occur in media that are resistive or even insulating when probed by electric fields.<n>Results show that physical media can mix features of symmetry-restored and symmetry-broken states in a single substrate.
Score: 2.501567849921141
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Symmetry is central to how we classify phases of matter: solids break spatial translations, superfluids break particle-number conservation, and superconductors "break" gauge symmetry. Mixed anomalies involving higher-form symmetries, however, present a generalization of spontaneous symmetry breaking that admits a wider and more versatile set of possibilities. We introduce chimeric states of matter, in which aspects of broken and unbroken phases coexist. We find that the Meissner effect -- usually regarded as the defining hallmark of superconductivity -- can occur in media that are resistive or even insulating when probed by electric fields. We demonstrate this by constructing an effective field theory of "symmetry chimerization" and propose that Josephson junction networks could provide a laboratory realization. These results broaden the landscape of possible phases of matter, showing that physical media can mix features of symmetry-restored and symmetry-broken states in a single substrate.

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