Gauge fields induced by curved spacetime

• URL: http://arxiv.org/abs/2412.03647v2
• Date: Sun, 15 Dec 2024 02:48:51 GMT
• Title: Gauge fields induced by curved spacetime
• Authors: Pasquale Marra,
• Abstract summary: I found an extended duality (triality) between Dirac fermions in periodic spacetime metrics, nonrelativistic fermions in gauge fields, and in periodic scalar fields on a lattice. This indicates an unexpected equivalence between spacetime metrics, gauge fields, and scalar fields on the lattice.
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• Abstract: I found an extended duality (triality) between Dirac fermions in periodic spacetime metrics, nonrelativistic fermions in gauge fields (e.g., Harper-Hofstadter model), and in periodic scalar fields on a lattice (e.g., Aubry-Andr\'e model). This indicates an unexpected equivalence between spacetime metrics, gauge fields, and scalar fields on the lattice, which is understood as different physical representations of the same mathematical object, the quantum group $\mathcal{U}_q(\mathfrak{sl}_2)$. This quantum group is generated by the exponentiation of two canonical conjugate operators, namely a linear combination of position and momentum (periodic spacetime metrics), the two components of the gauge invariant momentum (gauge fields), position and momentum (periodic scalar fields). Hence, on a lattice, Dirac fermions in a periodic spacetime metric are equivalent to nonrelativistic fermions in a periodic scalar field after a proper canonical transformation. The three lattice Hamiltonians (periodic spacetime metric, Harper-Hofstadter, and Aubry-Andr\'e) share the same properties, namely fractal phase diagrams, self-similarity, topological invariants, flat bands, and topological quantized current in the incommensurate regimes.

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