2,423 research outputs found
Large Angle CMB Anisotropy in an Open Universe in the One-Bubble Inflationary Scenario
We consider an alternative scenario of inflation which can account for a
spatially open universe. It is similar to the old inflation in which the bubble
nucleation occurs in the sea of false vacuum, but differs from it in that the
second slow rollover inflation occurs inside a nucleated bubble. Hence our
observable universe is entirely contained in one nucleated bubble. The
significance of the scenario is that apart from a variance due to model
parameters it gives us a definite prediction on the spectrum of the primordial
density perturbations, hence is observationally testable. Here we investigate
the spectrum of CMB anisotropies on large angular scales. We find that the
contribution from peculiar modes which never appear in the usual harmonic
analysis is significant in the case .Comment: 8 pages, 6 figures, uuencoded compressed PS fil
Classification of singular fibres of stable maps from 4-manifolds to 3-manifolds and its applications
In this paper we classify the singular fibres of a stable maps from a closed 4-manifolds to a 3-manifolds up to the right-left equivalence. Furthermore, we obtain several results on the co-existence of the singular fibres of such maps. As a consequence, we show that Euler characteristic of the source 4-manifold with the suitable condition, has the same parity as the total number of specified singular fibres. In orientable case, the crucial result is obtained by O.Saeki [14]. The main theorem of this paper is a generalization of his theorem
Doctor of Philosophy
dissertationDark matter is a prominent and dominant form of matter in the Universe. Yet, despite various intense efforts, its nongravitational effects have not been observed. In this dissertation, we explore the nature of such elusive particles within a supersymmetric SU(3)C ⊗ SU(2)L ⊗ U(1)Y gauge theory. Although large regions of parameter space within supersymmetric models have been excluded by recent results from collider experiments and direct and indirect dark matter searches, we find that there is a wide range of viable parameter space once the requirements of minimal flavor violation and mass universality are relaxed. In particular, we focus on a class of models in which electroweak-scale Majorana dark matter has interactions with the Standard Model sector via relatively light charged scalars with large chiral mixing and CP-violation. Our model is shown to lead to enhanced dark matter pair annihilation, and is constrained by precise measurements of the lepton dipole moments. We illustrate that our model satisfies all constraints, including the observed thermal relic density, and investigate prospects for the detection of dark matter annihilation products. We also examine the effects of chiral mixing and CP-violationn on the variation in the ratio of the flux of monoenergetic photons from annihilation to two photons relative to that from annihilation to a photon and a Z boson, as well as the helicity asymmetry in the diphoton final state. We also find the most general spectrum for internal bremsstrahlung, which interpolates between the regimes dominated by virtual internal bremsstrahlung and by final state radiation, and that it provides distinctive γ-ray signals, which could potentially be observed in the near future
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