Gravitation and Elementary Particle Physics
- Moscow MIR Publishers 1983
- 294p
includes index and biblioraphy
The theory of space-time and gravitation Introduction space time geometry and conservation laws Fundamentals of the field approach to the description gravitational interactions A symmetric tensor gravitational field Conservation laws for gravitationalfield and matter A gauge- invariant tensor field The gravitational field equations in the field theory of gravitation minimum coupling equations conservation laws in the field theory of gravitation emission of gravitational waves Apost-newtonian approximation of the field theory of gravitation conservation laws in the post-newtonian approximation of the field theory of gravitation gravitational experiments in the solar system A static, spherically symmetric gravitational field a new mechanism of energy release in astrophysical objects The gravitational field of a non static, spherically symmetric source A non stationary model of the homogenous universe Feasible experimemts in the search for differences between the predictions of the field theory of gravitation and those of einstein gtr conclusion References Inclusive processes and strong interaction dynamics Introduction fundamentals of inclusive processses general properties of inclusive distributions limitations on the heavior of high energies inclusive distributions The scattering amplitude and generalized optical theorm Asymptotic behavior of inclusive cross sections and universal nature of structure funstions colored quarks by N.N.bogolyubov, v.A. matveev and A.N. introduction Clored quarks and hadron dynamics parastatistics and color Hadron quark structure and automodel behavior at high energies quark counting rules and qcd quark in nuclei Broken color symmetry and inter-charged quarks references