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Pions. --- Nucleon-nucleon interactions.

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Nucleon-nucleon interactions --- Many-body problem

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Three-body problem --- Nucleon-nucleon interactions --- Congresses. --- Congresses.

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This book provides a comprehensive overview of some key developments in the understanding of the nucleon-nucleon interaction and nuclear many-body theory. The main problems at the level of meson exchange physics have been solved, and we have an effective field theory using a phenomenological interaction pioneered by Achim Schwenk and Scott Bogner, which is nearly universally accepted as a unique low-momentum interaction that includes all experimental data to date. This understanding is based on a multi-step development in which different scientific insights and a wide range of physical and mat

Nucleon-nucleon interactions. --- Many-body problem. --- n-body problem --- Problem of many bodies --- Problem of n-bodies --- Mechanics, Analytic --- Interactions, Nucleon-nucleon --- Nuclear reactions --- Particles (Nuclear physics) --- Nucleon-nucleon interactions --- Many-body problem --- Problème des N corps

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The three-dimensional nucleon structure is central to many theoretical and experimental activities, and research in this field has seen many advances in the last two decades, addressing fundamental questions such as the orbital motion of quarks and gluons inside the nucleons, their spatial distribution, and the correlation between spin and intrinsic motion. A real three-dimensional imaging of the nucleon as a composite object, both in momentum and coordinate space, is slowly emerging.This book presents lectures and seminars from the Enrico Fermi School: Three-Dimensional Partonic Structure of the Nucleon, held in Varenna, Italy, in June and July 2011. The topics covered include: partonic distributions, fragmentation functions and factorization in QCD; theory of transverse momentum dependent partonic distributions (TMDs) and generalized partonic distributions (GPDs); experimental methods in studies of hard scattering processes; extraction of TMDs and GPDs from data; analysis tools for azimuthal asymmetries; models for TMDs and numerical methods; future experiments.The school aimed to educate postgraduate students to enable them to specialize in hard scattering and partonic azimuthal distributions analysis, thus equipping them to joining any of the current dedicated experiments or perform theoretical and phenomenological studies of TMDs and GPDs.

Nucleon-nucleon scattering --- Fermions --- Collisions (Nuclear physics) --- Fermi-Dirac particles --- Particles (Nuclear physics) --- Quantum statistics --- Interacting boson-fermion models --- Leptons (Nuclear physics) --- Nucleon scattering --- Nucleon-nucleon interactions --- Scattering (Physics)