NATO ASI series., Series C,, Mathematical and physical sciences ;, 427.
A new Topology for Spatial Infinity? --; Temperature and Gravitational Potential --; How can General Relativity be formulated most canonically? --; Phase Transitions out of Equilibrium --; Some Physical Analyses in Relativistic Heavy Ion Collisions --; Why the central values of
In recent years there has been a steadily increasing cross-fertilization between cosmology and particle physics, on both the theoretical and experimental levels. Particle physics has provided new experimental data from the big accelerators in operation, and data from space satellites are accumulating rapidly. Cosmology is still one of the best laboratories for testing particle theory. The present work discusses such matters in the context of inflation, strings, dark matter, neutrinos and gravitational wave physics in the very early universe, field theory at the Planck scale, and high energy physics. A particular emphasis has been placed on a new topology for spatial infinity, on the relation between temperature and gravitational potential, a canonical formulation of general relativity, the neutrino mass, spin in the early universe, the measurement of gravity in the 10--100 m range, galaxy--galaxy and cluster--cluster correlation, black holes, string theory and string/string duality. The work also presents a beautiful review of high energy elementary particle physics, treating the meaning, status and perspectives of unification and standard model gauge couplings.
Proceedings of the NATO Advanced Study Institute on Cosmology and Particle Physics (13th Course of the International School of Cosmology and Gravitation of the Ettore Majorana Centre for Scientific Culture), Erice, Italy, May 3--14, 1993