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A method for efficient simulation of SU(2) gauge theory using gauge fixing.
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Research reveals interactions between charm and strange dibaryons through lattice QCD methods.
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Research sheds light on the stability of exotic tetraquarks and their binding energies.
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Researchers enhance knowledge of mesons using advanced techniques and theoretical methods.
Benoît Blossier, Mariane Mangin-Brinet, José Manuel Morgado Chávez
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Scientists study particle interactions using light-ray operators and quantum simulations.
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This study explores how pions scatter using advanced simulation techniques.
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Scientists investigate hybrid mesons, unique particles combining quarks and gluons.
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Research explores how exotic molecules interact with conventional hadrons.
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An overview of the XY-plaquette model and its insights into fractons.
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A simplified overview of three-body scattering and its significance in physics.
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Study shows staggered fermions exhibit lower taste symmetry breaking in varying conditions.
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Kolya aids researchers in analyzing semileptonic decays of mesons efficiently.
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This article explores how magnetic fields influenced matter production in the early universe.
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New research sheds light on charge and string dynamics using quantum computing.
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Research explores the properties of a doubly-charmed tetraquark using lattice QCD.
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Exploring recent findings on symmetries and defects in high-dimensional physics.
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Latin American scientists contribute to understanding particle physics at the EIC.
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Investigating local currents in varying magnetic fields during heavy-ion collisions.
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Gradient flow renormalisation improves calculations for meson properties and lifetimes.
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Research calculates meson masses to enhance understanding of particle interactions.
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Researchers apply machine learning to better understand quantum phase transitions in bosonic systems.
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This article examines gauge theories and their behavior during temperature variations.
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A look into Yang-Mills theory and how temperature affects particle interactions.
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Researchers propose a novel way to study charmonium transitions without traditional pitfalls.
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Uncovering the building blocks of matter: nucleons, quarks, and gluons.
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