05310nam 2200649Ia 450 991045409670332120200520144314.01-281-92820-89786611928209981-277-550-1(CKB)1000000000537903(EBL)1681503(OCoLC)879025240(SSID)ssj0000103003(PQKBManifestationID)11131323(PQKBTitleCode)TC0000103003(PQKBWorkID)10081348(PQKB)10466625(MiAaPQ)EBC1681503(WSP)00005269(Au-PeEL)EBL1681503(CaPaEBR)ebr10255617(CaONFJC)MIL192820(EXLCZ)99100000000053790320030724d2003 uy 0engur|n|---|||||txtccrAnalytic aspects of quantum fields[electronic resource] /A.A. Bytsenko ... [et al.][River Edge] New Jersey World Scientificc20031 online resource (370 p.)Description based upon print version of record.981-238-364-6 Includes bibliographical references (p. 327-339) and index.Contents; Preface; 1 Survey of Path Integral Quantization and Regularization Techniques; 1.1 Path Integral and Regularization Techniques for Functional; 1.2 Schwinger-Like Regularizations and Heat-Kernel Expansion; 1.3 Logarithmic Terms in the Heat-Kernel Expansion; 1.4 One-Loop Renormalization Group Equations; 1.5 Static Spacetimes: Thermodynamic Effects; 1.5.1 Static and ultrastatic spacetimes; 1.5.2 Finite-temperature effects; 1.5.3 The free energy; 1.5.4 The thermodynamic potential; 1.5.5 Regularization of the vacuum energy; 1.5.6 A generalized vacuum energy formula2 The Zeta-Function Regularization Method2.1 Survey of the Chapter, Notation and Conventions; 2.1.1 Feasibility of physical interpretation via Wick rotation; 2.2 Heat-Kernel Expansion and Coefficients; 2.2.1 The heat-kernel expansion on compact manifolds; 2.2.2 The self-adjoint extension; 2.2.3 Existence of the (differentiated) heat-kernel expansion; 2.2.4 The heat-kernel coefficients; 2.3 Local and Global Spectral Zeta Functions on Compact Manifolds; 2.3.1 Weyl's asymptotic formulae; 2.3.2 Spectral zeta functions; 2.4 Effective Action, Effective Lagrangian and Green Functions2.4.1 Comparison with the point-splitting regularization procedure2.4.2 Green functions and zeta functions; 2.4.3 Differential calculus of the heat kernel and local zeta functions; 2.5 Noncompact Manifolds and Manifolds with a Boundary; 2.6 The Stress-Energy Tensor and Field-Fluctuation Regularization; 2.6.1 The stress-energy tensor; 2.6.2 Zeta-function regularization of the stress-energy tensor and the field fluctuation; 2.6.3 The regularized stress tensor and its properties; 2.6.4 On the physical interpretation; 3 Generalized Spectra and Spectral Functions on Non-commutative Spaces3.1 Extended Chowla-Selberg Formulae and Arbitrary Spectral Forms3.2 Barnes and Related Zeta Functions; 3.2.1 The two-dimensional case; 3.2.2 The D-dimensional case; 3.3 Spectral Zeta Functions for Scalar and Vector Fields on a Spacetime with a Non-commutative Toroidal Part; 3.3.1 Poles of the zeta function; 3.3.2 Explicit analytic continuation of ζα s); 3.4 Applications to Quantum Field Theory in Non-commutative Space; 3.4.1 Finite-temperature partition function; 3.4.2 The spectral zeta function and the regularized vacuum energy; 3.4.3 The regularized vacuum energy3.4.4 High-temperature expansion4 Spectral Functions of Laplace Operator on Locally Symmetric Spaces; 4.1 Locally Symmetric Spaces of Rank One; 4.2 The Spectral Zeta Function; 4.3 Asymptotics of the Heat Kernel; 4.4 Product of Einstein Manifolds; 4.4.1 The Kronecker sum of Laplace operators; 4.4.2 The Selberg zeta function. Factorization formula; 4.4.3 Meromorphic continuation; 4.5 Real Hyperbolic Manifolds; 4.5.1 Laplacian on forms; 4.5.2 Simple complex Lie group; 4.5.3 An example of functional determinant evaluation; 4.5.4 Scalar fields in spacetime with spatial section of the form Γ\H35 Spinor Fields One of the aims of this book is to explain in a basic manner the seemingly difficult issues of mathematical structure using some specific examples as a guide. In each of the cases considered, a comprehensible physical problem is approached, to which the corresponding mathematical scheme is applied, its usefulness being duly demonstrated. The authors try to fill the gap that always exists between the physics of quantum field theories and the mathematical methods best suited for its formulation, which are increasingly demanding on the mathematical ability of the physicist. <br><i>Contents:</i><Quantum field theoryPhysicsElectronic books.Quantum field theory.Physics.530.143Bytsenko Andrei A502863MiAaPQMiAaPQMiAaPQBOOK9910454096703321Analytic aspects of quantum fields1952939UNINA