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Particle physics is a science about the symmetries of our world. The Standard Model is the fundamental theory of microworld. Particle dynamics in the Standard Model obeys strict symmetry laws with explicit experimental consequences. Priority problems of particle physics based on the Standard Model are more accurate theoretical predictions, experimental measurements and data analysis, proof of existence or non-existence of supersymmetry, top quark properties, Higgs boson, exotic quark states, and physics of neutrinos. In this collection of articles, many of these problems are discussed. We recommend this book for students, graduate students, and scientists working in the field of high energy physics.

Research & information: general --- Mathematics & science --- exotic states --- confined covariant quark model --- strong and radiative decays --- strong interaction --- high energy --- multiparticle production --- multiplicity --- transverse momentum --- forward-backward correlations --- long-range rapidity correlations --- translation invariance in rapidity --- quark-gluon strings --- string fusion --- high energy physics --- electron–positron annihilation --- forward–backward asymmetry --- left–right asymmetry --- top quark --- pair production --- charge asymmetry --- neutrino oscillations in matter --- rephasing invariant --- neutrino absorption --- quasi-Dirac --- neutrino oscillation --- Majorana neutrino mass --- neutrinoless double beta decay --- gravity --- relocalization --- topology --- boundary --- poles

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Astronomy has traditionally relied on capturing photons from cosmic sources to be able to understand the universe. During the 20th and 21st centuries, different messengers have been added to the astronomer's toolset: cosmic rays, neutrinos, and most recently gravitational waves. Each of these messengers opens a new window on the universe, and a modern astronomer must be familiar with them. The goal of this book is to provide a broad understanding of these messengers and their relationship to each other. The unique physics of each messenger is introduced, as well as the physics of their detection and interpretation. An additional focus is the discussion of techniques and topics that are common to more than one messenger. Principles of Multimessenger Astronomy is designed to be both an introduction and reference to modern astronomy.

Astrophysics. --- Cosmic rays. --- Neutrino astrophysics. --- Gravitational waves. --- Astronomical observation - observatories, equipment & methods. --- High-energy Phenomena and Fundamental Physics.

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Astronomy has traditionally relied on capturing photons from cosmic sources to be able to understand the universe. During the 20th and 21st centuries, different messengers have been added to the astronomer's toolset: cosmic rays, neutrinos, and most recently gravitational waves. Each of these messengers opens a new window on the universe, and a modern astronomer must be familiar with them. The goal of this book is to provide a broad understanding of these messengers and their relationship to each other. The unique physics of each messenger is introduced, as well as the physics of their detection and interpretation. An additional focus is the discussion of techniques and topics that are common to more than one messenger. Principles of Multimessenger Astronomy is designed to be both an introduction and reference to modern astronomy.

Rayonnement gravitationnel --- Ondes électromagnétiques --- Rayonnement cosmique --- Atmosphère --- Astrophysique des neutrinos --- Astronomie --- Gravitational waves. --- Electromagnetic waves. --- Cosmic rays. --- Atmosphere. --- Neutrino astrophysics. --- Astronomy --- Méthodologie --- Methodology. --- Astrophysics. --- Astronomical observation - observatories, equipment & methods. --- High-energy Phenomena and Fundamental Physics.