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Main Authors: Del Vecchio, Simone, Fröhlich, Jürg, Pizzo, Alessandro, Ranallo, Alessio
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2306.02772
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author Del Vecchio, Simone
Fröhlich, Jürg
Pizzo, Alessandro
Ranallo, Alessio
author_facet Del Vecchio, Simone
Fröhlich, Jürg
Pizzo, Alessandro
Ranallo, Alessio
contents For a class of Hamiltonians of $XXZ$ spin chains in a uniform external magnetic field that are small quantum perturbations of an Ising Hamiltonian, it is shown that the spectral gap above the ground-state energy remains strictly positive when the perturbation is turned on, uniformly in the length of the chain. This result is proven for perturbations of both the ferromagnetic and the antiferromagnetic Ising Hamiltonian. In the antiferromagnetic case, the external magnetic field is required to be small. For a chain of an even number of sites, the two-fold degenerate ground-state energy of the unperturbed antiferromagnetic Hamiltonian may split into two energy levels separated by a very small gap. These results are proven by using a new, quite subtle refinement of a method developed in earlier work and used to iteratively block-diagonalize Hamiltonians of systems confined to ever larger subsets of a lattice by using strictly local unitary conjugations. The new method developed in this paper provides complete control of boundary effects on the low-energy spectrum of perturbed Ising chains uniformly in their length.
format Preprint
id arxiv_https___arxiv_org_abs_2306_02772
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Low energy spectrum of the XXZ model coupled to a magnetic field
Del Vecchio, Simone
Fröhlich, Jürg
Pizzo, Alessandro
Ranallo, Alessio
Mathematical Physics
For a class of Hamiltonians of $XXZ$ spin chains in a uniform external magnetic field that are small quantum perturbations of an Ising Hamiltonian, it is shown that the spectral gap above the ground-state energy remains strictly positive when the perturbation is turned on, uniformly in the length of the chain. This result is proven for perturbations of both the ferromagnetic and the antiferromagnetic Ising Hamiltonian. In the antiferromagnetic case, the external magnetic field is required to be small. For a chain of an even number of sites, the two-fold degenerate ground-state energy of the unperturbed antiferromagnetic Hamiltonian may split into two energy levels separated by a very small gap. These results are proven by using a new, quite subtle refinement of a method developed in earlier work and used to iteratively block-diagonalize Hamiltonians of systems confined to ever larger subsets of a lattice by using strictly local unitary conjugations. The new method developed in this paper provides complete control of boundary effects on the low-energy spectrum of perturbed Ising chains uniformly in their length.
title Low energy spectrum of the XXZ model coupled to a magnetic field
topic Mathematical Physics
url https://arxiv.org/abs/2306.02772