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Main Authors: Matsumoto, Akira, Itou, Etsuko, Tanizaki, Yuya
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.07556
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author Matsumoto, Akira
Itou, Etsuko
Tanizaki, Yuya
author_facet Matsumoto, Akira
Itou, Etsuko
Tanizaki, Yuya
contents We propose three independent methods to compute the hadron mass spectra of gauge theories in the Hamiltonian formalism. The determination of hadron masses is one of the key issues in QCD, which has been precisely calculated by the Monte Carlo method in the Lagrangian formalism. We confirm that the mass of hadrons can be calculated by examining correlation functions, the one-point function, or the dispersion relation in Hamiltonian formalism. These methods are suitable for quantum computation and tensor network approaches. The methods are demonstrated with the tensor network (DMRG) in the 2-flavor Schwinger model, which shares important properties with QCD. We show that the numerical results are consistent with each other and with the analytic prediction of the bosonization technique. We also discuss their efficiency and potential applications to other models.
format Preprint
id arxiv_https___arxiv_org_abs_2401_07556
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Three ways of calculating mass spectra for the 2-flavor Schwinger model in the Hamiltonian formalism
Matsumoto, Akira
Itou, Etsuko
Tanizaki, Yuya
High Energy Physics - Lattice
We propose three independent methods to compute the hadron mass spectra of gauge theories in the Hamiltonian formalism. The determination of hadron masses is one of the key issues in QCD, which has been precisely calculated by the Monte Carlo method in the Lagrangian formalism. We confirm that the mass of hadrons can be calculated by examining correlation functions, the one-point function, or the dispersion relation in Hamiltonian formalism. These methods are suitable for quantum computation and tensor network approaches. The methods are demonstrated with the tensor network (DMRG) in the 2-flavor Schwinger model, which shares important properties with QCD. We show that the numerical results are consistent with each other and with the analytic prediction of the bosonization technique. We also discuss their efficiency and potential applications to other models.
title Three ways of calculating mass spectra for the 2-flavor Schwinger model in the Hamiltonian formalism
topic High Energy Physics - Lattice
url https://arxiv.org/abs/2401.07556