Workshops General Archive
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The main purpose of this workshop is to review the present status of the implementation of microscopic many-body techniques to those systems breaking time reversal invariance, with a special emphasis in mean-eld-based many-body methods employing energy density functionals.More info
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The proposed workshop will highlight current problems posed by strong interactions in perturbative and non-perturbative regimes and discuss how future colliders beyond the LHC can shed light on them.More info
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This workshop brings together experts in functional methods applied to problems in hadron and nuclear physics, and quantum gravity, as well as experts in other non-perturbative approaches, such as lattice QCD.More info
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The topics covered by the workshop are: Heavy Hadrons on the Lattice, Nonperturbative Continuum QCD Approaches, Spectrum of Heavy Hadrons, Heavy Hadron Production and Decays, Effective Theories in Heavy Quarkonia, Interactions of Charmed Mesons with Nuclear Matter, Heavy Hadrons in Hot-Dense Matter, Transition Form Factors and Neutral Meson Oscillations and CP violation.More info
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The objective of this workshop, the fth in a series, is to bring together various physics communities, which are addressing similar universal few- and many-body phenomena and using common concepts and methodologies.More info
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In this workshop we want to explore the prospect of the Lefschetz thimble approach to get extended to full QCD and discuss current numerical and theoretical limitations.More info
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This workshop aims at bringing together nuclear physicists, astrophysicists, and astronomers to examine open issues and to establish strategic studies and synergies, needed to pave the way for an improved understanding of nuclear physics in the gravitational wave astronomy era.More info
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The goal is to provide input from all sides to constrain the dense matter equation of state.More info
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Fermi liquid theory is a cornerstone of quantum manybody systems. The mapping between strongly interacting particles and weakly coupled quasiparticles underlying this method provides an extraordinarily versatile theoretical tool.More info
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The study of electromagnetic transitions opens a window into the very nature of the strong interaction. And, indeed, such a study of how a ground-state nucleon transitions to an excited state, over a broad range of q2, will provide keen insight into the evolution of how dynamically-generated masses emerge from the asymptotically-free, nearly massless quarks of perturbative QCD as well as provide information on the ancillary effects from the meson-baryon cloud.More info