Calculating Mass Spectra for the Two-Flavor Schwinger Model in the Hamiltonian Formalism

This 44-minute conference talk by Etsuko Itou from YITP explores "Calculating mass spectra for the two-flavor Schwinger model in the Hamiltonian formalism." Dive into the world of Strongly interacting Quantum Field Theory (QFT) and its applications to various physical systems, with particular focus on the Schwinger model. Learn how Lattice Gauge Theory has evolved into a precision tool through improved algorithms, theoretical insights, and increased computational power. The presentation is part of a conference aimed at stimulating interplay between lattice and continuum approaches to QFT, covering topics such as Euclidean and Hamiltonian approaches to lattice field theory, quantum simulation connections, string-theoretic approaches to confining flux tubes, and lower-dimensional QCD models. This talk was co-sponsored by the Simons Collaboration on Confinement and QCD Strings and coordinated by Aleksey Cherman, Lance Dixon, and Igor Klebanov at the Kavli Institute for Theoretical Physics.