Harald Stumpf Livres

Inhaltsverzeichnis1 Irreversible quantum statistics.2 Crystal reaction theory.3 Bimolecular rate equations.4 Higher order rate equations..5 Electron state calculations.6 Symmetry operations.7 Phonon states and processes.8 External field effects.Appendix I: Elastic acoustic phonon modes.Appendix II: Two-particle transition probabilities.Appendix III: Auxiliary symmetry relations.References.Author Index.

This work delves into advanced concepts in quantum field theory, beginning with the Spinorfield Model, which covers regularization, Lagrange formalism, and canonical quantization. It explores covariant quantum field dynamics, including the construction of functional states, symmetries, and nonperturbative normal ordering. The algebraic Schrödinger representation is examined, focusing on indefinite state spaces, probability interpretations, and cyclic basis vector representations. The text further investigates weak mapping theorems, addressing hard core states, self-consistent propagators, and effective boson dynamics, alongside bound state calculations for vector boson and fermion states. It also discusses effective Yang-Mills dynamics, highlighting boson-fermion interactions and quantum properties of mapped fields. Additionally, the relationship between fermions and gravitation is analyzed, including spinor connections and graviton states. Weak mapping in gauge fields is covered, particularly in spinor electrodynamics and nonabelian quantum fields. The exploration of superconductivity and Higgs fields includes self-consistent states and the Ginzburg-Landau equation. Finally, the work addresses path integrals and effective theories, focusing on functional perturbation theory, hadronization of QCD, and composite particles, concluding with Fock space mappings and their implications for effective dynamics.

InhaltsverzeichnisSymbolverzeichnis.I. Vakuumelektrodynamik und Elektronentheorie.1. Statisches Punktladungsmodell.2. Stationäres Stromkreismodell.3. Maxwellgleichungen.4. Wellenausbreitung und -erzeugung.5. Maxwell-Lorentz-Theorie.II. Relativistische Feldtheorien.6. Transformationen und Invarianten.7. Klassische Felder.8. Erhaltungssätze.III. Phänomenologisches Leitermodell.9. Statisches Leitermodell.10. Stationäres Leitermodell.11. Quasistationäres Leitermodell.12. Wellenausbreitung und Beugung.IV. Phänomenologisches Isolatormodell.13. Statisches Isolatormodell.14. Magnetische Materialien.15. Dispersionstheorie.I. Vektor-und Tensoroperationen.II. Distributionen.III. Lineare partielle Differentialgleichungen 2. Ordnung.IV. Green-Funktionen.V. Vektorfelder.VI. Spezielle Funktionen-Systeme.VII. Variationsrechnung.VIII. Vektorielle Kirchhoff-Methode.IX. Umrechnungen.X. Maßeinheiten.XI. Tabellen und Konstanten.Sachwortverzeichnis.