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Интеллектуальная Система Тематического Исследования НАукометрических данных |
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The excitation spectrum of the nucleon provides a powerful theatre in which to hone our understanding of QCD in the strong-coupling regime. Thus there are major experimental, theoretical and computational efforts that aim to explore both the spectrum and the structure of excited nucleons. Dedicated experimental programs exist to perform accurate measurements of meson photo- and electro-production off the nucleon in order to discover its excitations, and determine its internal structure. QCD-inspired models and Schwinger-Dyson solutions of QCD aim to identify the key degrees of freedom describing the nucleon, while lattice QCD strives to provide first principles calculations of a precision that can confront experiment. The purpose of this workshop is to present the latest results in each of these areas, and explore how together they can build a picture of nucleon excitations and the nature of QCD in the low-energy regime. The program will comprise a series of invited plenary talks, together with contributed parallel sessions and a poster session. The topics will include: New results on pseudoscalar and vector meson production "Complete" experimental determinations of meson-production amplitudes Reaction models, PWA and resonance parameters Baryon resonance structure and quark models Baryon resonances in N_c expansion Baryon structure at short and long distances Dynamical models and coupled channel analysis Dyson-Schwinger approaches to baryon resonances Baryon resonances in lattice QCD Baryon resonances in holographic QCD Chiral symmetry and baryon resonances Laboratory reports and future projects For general inquiries: nstar2011_loc@jlab.org Participants may also want to attend the Satellite Workshop May 16th on "Nucleon Resonance Structure in Exclusive Electroproduction at High Photon Virtualities with the CLAS 12 Detector" http://conferences.jlab.org/electroproduction/index.html