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Author Kruglov, Sergey, author

Title Four-fermion models in the theory of electro-weak and strong interactions / by S.I. Kruglov
Published Newcastle upon Tyne, UK : Cambridge Scholars Publishing, 2018

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Description 1 online resource (viii, 336 pages)
Contents Intro; Table of Contents; Preface; PART I; Chapter 1; Chapter 2; 2.1 Dynamical symmetry breaking; 2.1.1 Collective variables and perturbation theory in a nonlinear spinor model; 2.1.2 The Ward−Takahashi identities and Dyson−Schwinger equations; 2.1.3 Four-fermion interaction with the violation of CP-parity; 2.1.4 Dynamical mass formation and symmetry breaking in SU(n) ⊗ U(1) four-fermion models; Chapter 3; 3.1 Global SU(2)⊗U(1)-invariant models; 3.1.1 The initial model; 3.1.2 Independent generations of leptons
3.1.3 Dynamical symmetry breaking in SU(2)L--"(1)-model with two right singlets and quark mass generationChapter 4; 4.1 Local SU(2)L --"U(1)-invariant model; 4.1.1 SU(2)L--"(1)-invariant four-fermion model with independent fermion generations; 4.1.2 Perturbation expansion and the effective Lagrangian; 4.1.3 Mixed interactions between leptons of different generations; 4.1.4 Quark sector; PART II; Chapter 5; 5.1 Non-perturbative effects; 5.1.1 Chiral symmetry breaking and effective action in Abelian chromodynamics; 5.1.2 On four-quark interaction induced by instantons
5.1.3 Investigation of infrared asymptotic of Green's function in the four-fermion modelChapter 6; 6.1 Low-energy characteristics; 6.1.1 Electromagnetic polarizabilities of pions; 6.1.2 Electromagnetic polarizabilities of nucleons; 6.1.3 The spontaneous CP violation in the SU(3) NJL model; 6.1.4 The model and perturbation expansion; 6.1.5 Propagators of quarks and mesons; 6.1.6 The effective action and mass spectrum of mesons; 6.1.7 Effective chiral Lagrangians of the SU(3)-group and low-energy physics of hadrons
Bibliography Includes bibliographical references
Notes Online resource; title from PDF title page (EBSCO, viewed February 5, 2019)
Subject Fermions -- Mathematical models
Quarks.
SCIENCE -- Physics -- Quantum Theory.
Fermions -- Mathematical models
Quarks
Form Electronic book
ISBN 9781527527669
1527527662