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New Physics From A Dynamical Volume Element

High Energy Physics - Theory 2011-09-27 v3

Abstract

The use in the action integral of a volume element of the form ΦdDx\Phi d^{D}x where Φ\Phi is a metric independent measure can give new interesting results in all types of known generally coordinate invariant theories: (1) 4-D theories of gravity plus matter fields; (2) Reparametrization invariant theories of extended objects; (3) Higher dimensional theories. In the case (1), a large number of new effects appears: under normal particle physics conditions (primordial) fermions split into three families; when matter is highly diluted, neutrinos increase their mass and can contribute both to dark energy and to dark matter. In the case (2), it leads to dynamically induced tension; to string models of non abelian confinement; to the possibility of new Weyl-conformally invariant light-like branes which dynamically adjust themselves to sit at black hole horizons; in the context of higher dimensional theories it can provide examples of massless 4-D particles with nontrivial Kaluza Klein quantum numbers. In the case (3), i.e. in brane and Kaluza Klein scenarios, the use of a metric independent measure makes it possible to construct naturally models where only the extra dimensions get curved and the 4-D remain flat.

Keywords

Cite

@article{arxiv.hep-th/0411122,
  title  = {New Physics From A Dynamical Volume Element},
  author = {Eduardo Guendelman and Alexander Kaganovich and Emil Nissimov and Svetlana Pacheva},
  journal= {arXiv preprint arXiv:hep-th/0411122},
  year   = {2011}
}

Comments

14 pages, in the proceedings of 7-th Workshop 'What Comes Beyond the Standard Models', Bled (Slovenia) July, 2004; two references corrected