par Grushin, A.G.;Palumbo, Giandomenico 
Référence Physical Review B, 102, 11, 115146
Publication Publié, 2020-09
Référence Physical Review B, 102, 11, 115146
Publication Publié, 2020-09
Article révisé par les pairs
| Résumé : | The dualities that map hard-to-solve, interacting theories to free, noninteracting ones often trigger a deeper understanding of the systems to which they apply. However, simplifying assumptions such as Lorentz invariance, low dimensionality, or the absence of axial gauge fields, limit their application to a broad class of systems, including topological semimetals. Here we derive several axial field theory dualities in 2+1 and 3+1 dimensions by developing an axial slave-rotor approach capable of accounting for the axial anomaly. Our 2+1-dimensional duality suggests the existence of a dual, critical surface theory for strained three-dimensional nonsymmorphic topological insulators. Our 3+1-dimensional duality maps free Dirac fermions to Dirac fermions coupled to emergent U(1) and Kalb-Ramond vector and axial gauge fields. Upon fixing an axial field configuration that breaks Lorentz invariance, this duality maps free to interacting Weyl semimetals, thereby suggesting that the quantization of the nonlinear circular photogalvanic effect can be robust to certain interactions. Our paper emphasizes how axial and Lorentz-breaking dualities improve our understanding of topological matter. |
