E-grāmata: Fundamental Interactions: Cargese 1981

Functional Methods in Quantum Field Theory.- I. Introduction.- II. Path
Integrals.- III. Feynman Diagrams.- IV. Fermions.- V. Ghosts.- References.-
to Electro-Weak Interactions.- I. Introduction.- II. Gauge Invariance.- III.
Spontaneous Symmetry Breaking.- IV. The Standard Model.- V. Anomalies.- VI.
Fermi Mass Matrix.- VII. CP.- VIII. Things to look for.- References.- The
Weak Interactions in the Confining Phase.- References.- Heavy Quark Systems.-
Electron-Positron Interactions at High Energies.- I. Introduction.- II. PETRA
and PEP.- III. The structure of Leptons.- IV. Weak Neutral Current
Contributions to Lepton Pair Production.- V. Search for new Particles.- VI.
Jet Formation in e+e? annihilation.- VII. Quark and Gluon Fragmentation.-
References.- e+e? Collisions at CESR.- I. CESR, CLEO and CUSB.- II. Upsilon
bound state spectroscopy and tests of QCD.- III. B Meson Decays and Tests of
the standard weak interaction.- References.- e+e? Physics at Very Large
Energies.- O. Abstract.- I. Introduction.- II. Interference between
electromagnetic and neutral weak currents.- III. Z° Decays.- IV. W+W?
Production.- V. Higgs Bosons.- VI. Conclusions.- References.- Theoretical
Aspects in Perturbative QCD.- I. Introduction.- II. The LLA and beyond.- III.
The Photon Structure Functions.- IV. Prescription and Scale dependence for
the running coupling.- V. Spacelike and Timelike Structure Functions beyond
LLA.- VI. An Asymptotic Formula for Multiplicities.- VII. The Sudakov Form
Factor of Partons.- VIII. Examples of Doubly Logarithmic Effects of Physical
Interest.- References.- Dynamical Mass Generation For Quarks and Leptons.- I.
Introduction.- II. Technicolour and its Extension.- III. ETC Issues, Answers
and Problems.- IV. Alternatives to ETC ?.- V. Composite Quarks andLeptons.-
References.- Quark Confinement and Lepton Liberation in an Anisotropic Space
Time.- I. Introduction.- II. Is Hadron Dynamics 2-dimensional ?.- III. The
Anisotropic Space-Time.- IV. The Anisotropic Yang-Mills Interactions.- V.
Quantum Fluctuations and the Role of Chirality.- VI. Gauge Invariance
Restored.- VII. The Structure of Strong Interactions.- References.- Physics
at Collider Energies.- I. Introduction.- II. Hunting the Weak Vector Bosons.-
III. The Dominant Hadron Processes.- IV. Jet Phenomena.- V. Conclusion.-
References.- Proton Lifetime Experiments.- I. Theoretical Preamble.- II. The
Experimental Problem.- III. Status of N Decay Studies.- IV. The Future.- V.
Other Possibilities Offered by these Set-Ups.- VI. n $$\rm \bar{n}$$
Oscillations.- References.- Quantum Field Theory and Cosmology.- I.
Introduction.- II. The Hot Big Bang Theory.- III. Entropy Generation.- IV.
Quantum Gravity.- References.- The Confinement Phenomenon in Quantum Field
Theory.- O. Abstract.- I. Introduction.- II. Scalar Field Theory.- III. Bose
Condensation.- IV. Goldstone Particles.- V. Higgs Mechanism.- VI. Vortex
Tubes.- VII. Diracs Magnetic Monopoles.- VIII. Unitary Gauge.- IX. Phantom
Solitons.- X. Non-Abelian Gauge Theory.- XI. Unitary Gauge.- XII. A
Topological Object.- XIII. The Macroscopic Variables.- XIV. The Dirac
Condition in the EM Charge Spectrum.- XV. Oblique Confinement.- XVI. Fermions
out of Bosons and vice-versa.- XVII. Other Condensation Modes.- References.-
Developments in Particle Physics.- I. The Fermion Family.- II. On Symmetry
Breaking.- III. Neutrinos.- IV, Majorons.- V. Axions.- VI. The Future.