Sterile neutrino dark matter, CDMS-II and a light Higgs boson

We add a singlet right handed neutrino plus a charged and a neutral singlet scalars to the standard model. This extension includes a discrete symmetry such that we obtain a heavy sterile neutrino which couples only to the electron and the new scalars. In this sense the singlet neutrino does not mix with ordinary ones and thus has no effect on Big Bang Nucleosynthesis. However, such sterile neutrino can be in equilibrium with electroweak particles in the early Universe due to its couplings to electrons and also because the Higgs boson mixes with the singlet scalars. We obtain that the sterile neutrino constitutes a dark matter candidate and analyze its direct detection in the light of current experiments. Our results show that if such a sterile neutrino is realized in nature, and CDMS-II experiment confirms its positive signal, dark matter demands a rather light Higgs boson with new Physics at some 500 GeV scale.Comment: 16 pages, 13 figures, uses axodraw.st

A 331 WIMPy Dark Radiation Model

Recent observations suggest that the number of relativistic degrees of freedom in the early universe might exceed what is predicted in the standard cosmological model. If even a small, percent-level fraction of dark matter particles are produced relativistically, they could mimic the effect of an extra realistic species at matter-radiation equality while obeying BBN, CMB and Structure Formation bounds. We show that this scenario is quite naturally realized with a weak-scale dark matter particle and a high-scale ``mother'' particle within a well motivated 3-3-1 gauge model, which is particularly interesting for being consistent with electroweak precision measurements, with recent LHC results, and for offering a convincing explanation for the number of generations in the Standard Model.Comment: 10 pages,7 figures. Matches Published EPJC versio

Explaining ATLAS and CMS Results Within the Reduced Minimal 3-3-1 model

Recently the ATLAS and CMS collaborations announced the discovery of a higgs particle with a mass of $\sim 125$ GeV. The results are mildly consistent with the Standard Model Higgs boson. However, the combined data from these collaborations seem to point to an excess in the $h \rightarrow \gamma \gamma$ channel. In this work we analyze under which conditions this excess may be plausibly explained within the reduced minimal 3-3-1 model, while being consistent with bb, WW, ZZ and $\tau^+\tau^-$ channels. Moreover, we derive the properties of the heavy neutral and the doubly charged scalars predicted by the model. We then conclude that at a scale of a few TeV, this model provides a good fit to the ATLAS and CMS signal strength measurements, and therefore stands as an appealing alternative to the standard model.Comment: 23 pages, 9 figures. References adde

On the connection of Gamma-rays, Dark Matter and Higgs searches at LHC

Motivated by the upcoming Higgs analyzes we investigate the importance of the complementarity of the Higgs boson chase on the low mass WIMP search in direct detection experiments and the gamma-ray emission from the Galactic Center measured by the Fermi-LAT telescope in the context of the $SU(3)_c\otimes SU(3)_L\otimes U(1)_N$. We obtain the relic abundance, thermal cross section, the WIMP-nucleon cross section in the low mass regime and network them with the branching ratios of the Higgs boson in the model. We conclude that the Higgs boson search has a profound connection to the dark matter problem in our model, in particular for the case that ($M_{WIMP} < 60$ GeV) the BR($H \rightarrow 2$ WIMPs) $\gtrsim 90$. This scenario could explain this plateau of any mild excess regarding the Higgs search as well as explain the gamma-ray emission from the galactic center through the $b\bar{b}$ channel with a WIMP in the mass range of 25-45 GeV, while still being consistent with the current limits from XENON100 and CDMSII. However, if the recent modest excesses measured at LHC and TEVATRON are confirmed and consistent with a standard model Higgs boson this would imply that $M_{WIMP} > 60$ GeV, consequently ruling out any attempt to explain the Fermi-LAT observations.Comment: 8 pages, 9 figure

Estudo histopatológico das lesões causadas pelo veneno de urutu (Bothrops alternatus) em músculo esquelético de camundongos

Veneno bruto de urutu (Bothrops alternatus) dissolvido em solução salina fisiológica foi injetado no músculo tibial anterior direito de camundongos adultos na dose de 80 μg. Os músculos foram examinados em cortes de parafina, corados por Hematoxilina e Eosina. Aos 10 minutos já havia intensa hemorragia difusa no M. tibial anterior, mas apenas raras fibras musculares estavam necróticas. Nas horas seguintes, contudo, observou-se rápido aumento do número de fibras afetadas, sendo que às 24 hs o músculo apresentava-se totalmente necrótico. Vasos sangüíneos intramusculares e nas proximidades do M. tibial anterior mostravam necrose hialina da camada média e por vezes trombose. A fagocitose dos restos celulares ocorreu da periferia para o centro e acompanhou-se de regeneração muscular. Após 1 a 2 meses, em vários animais houve recuperação considerável do músculo, embora com persistência de cicatriz. As fibras regeneradas possuiam núcleos centrais e variavam em diâmetro, estando muitas atróficas. Em outros camundongos a regeneração do M. tibial anterior foi muito precária, tendo este sido substituído por tecido fibroadiposo com apenas raras fibras musculares. Os resultados mostram que, apesar da gravidade das lesões iniciais devidas ao veneno, ocorre regeneração muscular em grau variável de animal para animal. Sugere-se que a má regeneração observada em alguns casos poderia ser devida, ao menos em parte, a dano vascular permanente.Venom of urutu snake (Bothrops alternatus) injected into the Tibialis anterior muscle (Tib. ant.) of mice in a dose of 80 μg induced massive local haemorrhage within 10 min. Though muscle fibres appeared normal at this stage they later suffered necrosis in increasing numbers so that by 24 hr the whole muscle was necrotic. Arteries near the injection site often showed hyaline necrosis of the media and some were thrombosed. Phagocytosis of debris, which progressed from the periphery towards the centre of the necrotic area was usually complete by 2 weeks and was accompanied by muscle fibre regeneration. After 1 or 2 months several animals showed extensive recovery of the damaged muscle though a localized scar often remained. The regenerated muscle fibres showed central nuclei and varied in diameter, many appearing atrophic. In other mice, however, there was replacement of Tib. ant. by fibroadipose tissue with little or no muscle fibre regeneration. The results show that despite severe initial haemorrhage and necrosis, the affected muscles exhibit considerable capacity for regeneration. It is suggested that the poor regenerative response observed in some animals could result, at least to some extent, from permanent damage to the local blood vessels

Generalized Differential Geometry

Generalized Functions play a central role in the understanding of differential equations containing singularities and nonlinearities. Introducing infinitesimals and infinities to deal with these obstructions leads to controversies concerning the existence, rigor and the amount of non-standard analysis needed to understand these theories. Milieus constructed over the generalized reals sidestep them all. A Riemannian manifold M embeds discretely into a generalized manifold $M^*$ on which singularities vanish and products of nonlinearities make sense. Linking this to an already existing global theory provides an algebra embedding $\kappa :\hat{{\cal{G}}}(M)\longrightarrow {\cal{C}}^{\infty}(M^*,\widetilde{\mathbb{R}}_f)$. Generalized Space-Time is constructed and its possible effects on Classical Space-Time are examined