Emergent Dipole Gauge Fields and Fractons

We present a realization of fracton-elasticity duality purely formulated in terms of ordinary gauge fields, encompassing standard elasticity and incommensurate crystals as those describing twisted bilayer graphene, quasicrystals or more general moiré lattices. Our construction comprises a descriptio...

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Veröffentlicht in:	arXiv.org 2022-07
Hauptverfasser:	Caddeo, Alessio, Hoyos, Carlos, Musso, Daniele
Format:	Artikel
Sprache:	eng
Schlagworte:	Bilayers Conservation equations Crystal defects Dipoles Disclinations Dislocations Elasticity Gauge invariance Graphene Lattices Physics - High Energy Physics - Theory Physics - Strongly Correlated Electrons Tensors
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creator	Caddeo, Alessio Hoyos, Carlos Musso, Daniele
description	We present a realization of fracton-elasticity duality purely formulated in terms of ordinary gauge fields, encompassing standard elasticity and incommensurate crystals as those describing twisted bilayer graphene, quasicrystals or more general moiré lattices. Our construction comprises a description of all types of two-dimensional defects: disclinations, dislocations, discompressions and point-like defects, and takes into account body forces and impurities. The original form of the duality in terms of tensor gauge fields is recovered after partial gauge fixing. We identify the coupling of each type of defect to the dual gauge fields, and from gauge invariance we derive generalized continuity equations for the defect currents and the expected mobility restrictions of elasticity defects.
doi_str_mv	10.48550/arxiv.2206.12877
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subjects	Bilayers Conservation equations Crystal defects Dipoles Disclinations Dislocations Elasticity Gauge invariance Graphene Lattices Physics - High Energy Physics - Theory Physics - Strongly Correlated Electrons Tensors
title	Emergent Dipole Gauge Fields and Fractons
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