Strong QCD from Hadron Structure Experiments: Newport News, VA, USA, November 4-8, 2019

Autor:	Brodsky, S.J., Burkert, V.D., Carman, D.S., Chen, J.P., Cui, Z.-F., Döring, M., Dosch, H.G., Draayer, J., Elouadrhiri, L., Glazier, D.I., Hiller Blin, A.N., Horn, T., Joo, K., Kim, H.C., Kubarovsky, V., Kuhn, S.E., Lu, Y., Melnitchouk, W., Mezrag, C., Mokeev, V.I., Qiu, J.W., Radici, M., Richards, D., Roberts, C.D., Rodríguez-Quintero, J., Segovia, J., Szczepaniak, A.P., de Téramond, G.F., Winney, D.
Přispěvatelé:	Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay
Jazyk:	angličtina
Rok vydání:	2019
Předmět:	[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th] High Energy Physics::Lattice hadron spectroscopy and structure Nuclear Theory hadron: mass parton: distribution function emergence of hadronic mass nonperturbative [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex] hadron: excited state hadron: structure parton: distribution amplitude hadron elastic form factors 12.38.Aw strong coupling quantum chromodynamics 14.20.Gk meson: production strong (non-perturbative) QCD Nuclear Experiment Higgs mechanism quark gluon activity report dynamical chiral symmetry breaking parton distribution amplitudes and functions 13.40.Gp [PHYS.HLAT]Physics [physics]/High Energy Physics - Lattice [hep-lat] hadron spectroscopy High Energy Physics::Phenomenology nucleus symmetry breaking: chiral quasiparticle electron nucleon: colliding beams form factor: electromagnetic baryon resonance: production confinement [PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph] Dyson–Schwinger equations meson: form factor Confinement of gluons and quarks High Energy Physics::Experiment 13.60.Le Jefferson Lab
Zdroj:	Int.J.Mod.Phys.E Strong QCD from Hadron Structure Experiments Strong QCD from Hadron Structure Experiments, Nov 2019, Newport News, United States. pp.2030006, ⟨10.1142/S0218301320300064⟩
Popis:	International audience; The topical workshop Strong QCD from Hadron Structure Experiments took place at Jefferson Lab from November 6–9, 2019. Impressive progress in relating hadron structure observables to the strong QCD mechanisms has been achieved from the ab initio QCD description of hadron structure in a diverse array of methods in order to expose emergent phenomena via quasi-particle formation. The wealth of experimental data and the advances in hadron structure theory make it possible to gain insight into strong interaction dynamics in the regime of large quark–gluon coupling (the strong QCD regime), which will address the most challenging problems of the Standard Model on the nature of the dominant part of hadron mass, quark–gluon confinement, and the emergence of the ground and excited state hadrons, as well as atomic nuclei, from QCD. This workshop aimed to develop plans and to facilitate the future synergistic efforts between experimentalists, phenomenologists, and theorists working on studies of hadron spectroscopy and structure with the goal to connect the properties of hadrons and atomic nuclei available from data to the strong QCD dynamics underlying their emergence from QCD. These results pave the way for a future breakthrough extension in the studies of QCD with an Electron–Ion Collider in the U.S.
Databáze:	OpenAIRE
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