Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
2004-06-04
Physics
High Energy Physics
High Energy Physics - Theory
14 pages, no figures, ajay@imsc.res.in, (Physics department, St Xavier's college, Mumbai and visitor, Institute of Mathematica
Scientific paper
The search for a Unified description of all interactions has created many developments of mathematics and physics. The role of geometric effects in the Quantum Theory of particles and fields and spacetime has been an active topic of research. This paper attempts to obtain the conditions for a Unified Gauge Field Theory, including gravity. In the Yang Mills type of theories with compactifications from a 10 or 11 dimensional space to a spacetime of 4 dimensions, the Kaluza Klein and the Holonomy approach has been used. In the compactifications of Calabi Yau spaces and sub manifolds, the Euler number Topological Index is used to label the allowed states and the transitions. With a SU(2) or SL(2,C) connection for gravity and the U(1)*SU(2)*SU(3) or SU(5) gauge connection for the other interactions, a Unified gauge field theory is expressed in the 10 or 11 dimension space. Partition functions for the sum over all possible configurations of sub spaces labeled by the Euler number index and the Action for gauge and matter fields are constructed. Topological Euler number changing transitions that can occur in the gauge fields and the compactified spaces, and their significance are discussed. The possible limits and effects of the physical validity of such a theory are discussed.
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