Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
2006-07-29
Physics
High Energy Physics
High Energy Physics - Theory
Caltech PhD thesis, defended 26 May 2006, advisor: Mark B. Wise; 124 pages, 23 figures, 2 tables; uses new_cit_thesis.cls (inc
Scientific paper
We review the interpretation of gauge invariance as a mathematical redundancy required in a relativistic description of forces mediated by massless spin-1 and spin-2 particles. In this context we also review the Weinberg-Witten theorem and its implications. This leads us to consider a class of models in which long-range interactions are mediated by Goldstone bosons of spontaneous Lorentz violation. Since the Lorentz symmetry is realized non-linearly in the Goldstones, these models could evade the Weinberg-Witten theorem and the need for gauge invariance. In the case of gravity, the broken symmetry would protect the theory from having non-zero cosmological constant, while the compositeness of the graviton could provide a solution to the perturbative non-renormalizability of gravity. We also consider the phenomenology of spontaneous Lorentz violation by a vector VEV and the experimental limits thereon. We find the general low-energy effective action of the Goldstones of this kind of symmetry breaking minimally coupled to gravity. We compare this to the ghost condensate that has been proposed as a model for gravity in a Higgs phase. We then summarize the cosmological constant problems and show that models in which a scalar field causes super-acceleration of the universe generally exhibit instabilities. We discuss how the equation of state evolves in a universe where the dark energy is caused by the ghost condensate. We comment on the anthropic argument for a small cosmological constant and how it is weakened if the inflaton self-coupling varies over the landscape of possible universes. Finally, we discuss the reverse sprinkler, a problem in elementary fluid mechanics that had eluded a definitive treatment for decades.
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