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Autores principales: Bai, Chen, Sun, Xinyu, Mo, Liang-Hong, Tu, Hong-Hao
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2606.00214
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author Bai, Chen
Sun, Xinyu
Mo, Liang-Hong
Tu, Hong-Hao
author_facet Bai, Chen
Sun, Xinyu
Mo, Liang-Hong
Tu, Hong-Hao
contents We show that the conformal anomaly of a $(1+1)$-dimensional conformal field theory can be extracted directly from a ground-state wave-function overlap associated with a spatial conformal deformation. Focusing on the $q$-Möbius deformation, we derive an exact overlap formula between the deformed and undeformed ground states, whose exponent depends only on the central charge. Motivated by this result, we construct a lattice estimator based solely on ground-state overlaps and apply it to representative critical quantum chains and the gapless edge modes of a two-dimensional Chern insulator. Numerical results demonstrate that the resulting overlaps provide a simple and robust probe of the central charge in microscopic models. We further demonstrate that the deformed ground states retain universal geometric structures in their entanglement spectra and entanglement entropies. These results provide a simple wave-function-based route to probing conformal data in critical systems and topological edge modes.
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spellingShingle Extracting central charge from ground-state overlaps of spatially deformed Hamiltonians
Bai, Chen
Sun, Xinyu
Mo, Liang-Hong
Tu, Hong-Hao
Strongly Correlated Electrons
High Energy Physics - Theory
Quantum Physics
We show that the conformal anomaly of a $(1+1)$-dimensional conformal field theory can be extracted directly from a ground-state wave-function overlap associated with a spatial conformal deformation. Focusing on the $q$-Möbius deformation, we derive an exact overlap formula between the deformed and undeformed ground states, whose exponent depends only on the central charge. Motivated by this result, we construct a lattice estimator based solely on ground-state overlaps and apply it to representative critical quantum chains and the gapless edge modes of a two-dimensional Chern insulator. Numerical results demonstrate that the resulting overlaps provide a simple and robust probe of the central charge in microscopic models. We further demonstrate that the deformed ground states retain universal geometric structures in their entanglement spectra and entanglement entropies. These results provide a simple wave-function-based route to probing conformal data in critical systems and topological edge modes.
title Extracting central charge from ground-state overlaps of spatially deformed Hamiltonians
topic Strongly Correlated Electrons
High Energy Physics - Theory
Quantum Physics
url https://arxiv.org/abs/2606.00214