Accession Number : ADA136295

Title :   The Mathematical Structure of Elementary Particles.

Descriptive Note : Technical summary rept.,

Corporate Author : WISCONSIN UNIV-MADISON MATHEMATICS RESEARCH CENTER

Personal Author(s) : Nowosad,P

PDF Url : ADA136295

Report Date : Oct 1983

Pagination or Media Count : 126

Abstract : This report consists of the first part of a general theory purporting to describe the mathematical structure of the elementary particles, starting from no preassumed knowledge, but deriving it instead from first principles along the line suggested by Dirac in the 1930's. In particular, quantum mechanics is shown to arise as a consequence of relativity theory and of the theory of generalized curves. In the first part the geometric structure (i.e. the nuclear field) is derived, and one obtains a slightly modified form of the Yukawa potential along with a cylindrical perturbation describing the spin effects. This report gives full details of the results announced in two previous reports. (Author)

Descriptors :   *Mathematical models, *Elementary particles, Quantum theory, Perturbations, Numerical analysis, Curvature, Geometric forms, Spinning(Motion), Experimental data

Subject Categories : Theoretical Mathematics
      Nuclear Physics & Elementary Particle Physics

Distribution Statement : APPROVED FOR PUBLIC RELEASE