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This work summarises the salient features of current and planned experiments into multiquark hadrons, describing various inroads to accommodate them within a theoretical framework. At a pedagogical level, authors review the salient aspects of quantum chromodynamics (QCD), the theory of strong interactions, which has been brought to the fore by high-energy physics experiments over recent decades. Compact diquarks as building blocks of a new spectroscopy are presented and confronted with alternative explanations of the XYZ resonances. Ways to distinguish among theoretical alternatives are illustrated, to be tested with the help of high luminosity LHC, electron-positron colliders, and the proposed Tera-Z colliders. Non-perturbative treatments of multiquark hadrons, such as large N expansion, lattice QCD simulations, and predictions about doubly heavy multiquarks are reviewed in considerable detail. With a broad appeal across high-energy physics, this work is pertinent to researchers focused on experiments, phenomenology or lattice QCD.

Hadrons. --- Quark models.

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Quark models --- -539.1 --- Models, Quark --- Nuclear models --- Congresses --- Nuclear physics. Atomic physics. Molecular physics --- 539.1 Nuclear physics. Atomic physics. Molecular physics --- 539.1 --- Quark models - Congresses

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Particles (Nuclear physics) --- Quarks. --- Flavor. --- Quarks --- Flavor (Nuclear physics) --- Flavor models (Nuclear physics) --- Top quark models --- Truth models (Nuclear physics) --- Flavor --- Partons --- Quark-gluon interactions

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Protons. --- Nuclear spin. --- Quark models. --- Quantum chromodynamics. --- Chromodynamics, Quantum --- QCD (Nuclear physics) --- Particles (Nuclear physics) --- Quantum electrodynamics --- Models, Quark --- Nuclear models --- Spin, Nuclear --- Angular momentum (Nuclear physics) --- Nuclear physics --- Hydrogen nucleus --- Atoms --- Baryons --- Matter --- Constitution

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This volume is a collection of review articles on the most outstanding topics in heavy flavour physics. All the authors have made significant contributions to this field. The book reviews in detail the theoretical structure of heavy flavour physics and confronts the Standard Model and some of its extensions with existing experimental data.This new edition covers new trends and ideas and includes the latest experimental information. Compared to the previous edition interesting new activities are included and some of the key contributions are updated. Particular attention is paid to the discover

Particles (Nuclear physics) --- Quantum flavor dynamics. --- Quarks. --- Partons --- Quark-gluon interactions --- Dynamics, Quantum flavor --- Flavor dynamics, Quantum --- Quantum theory --- Quarks --- Flavor (Nuclear physics) --- Flavor models (Nuclear physics) --- Top quark models --- Truth models (Nuclear physics) --- Flavor. --- Quantum flavor dynamics --- Particules (Physique nucléaire) --- Saveur