9,566 research outputs found
Correlations and realistic interactions in doubly closed shell nuclei
We review the latest variational calculations of the ground state properties
of doubly closed shell nuclei, from C to Pb, with semirealistic
and realistic two- and three-nucleon interactions. The studies are carried on
within the framework of the correlated basis function theory and integral
equations technique, with state dependent correlations having central and
tensor components. We report results for the ground state energy, one- and
two-body densities and static structure functions. For O and Ca
we use modern interactions and find that the accuracy of the method is
comparable to that attained in nuclear matter with similar hamiltonians, giving
nuclei underbound by 2 MeV/A. The computed Coulomb sums are in complete
agreement with the latest analysis of the experimental data.Comment: 11 Latex pages, 2 ps figures. Talk delivered at the 10th
International Conference on Recent Progress In Many-Body Theories, Seattle
1999. To appear in "Advances in Quantum Many-Body Theory", vol.3, World
Scientifi
New Results in the CBF theory for medium-heavy nuclei
Momentum distributions, spectroscopic factors and quasi-hole wave functions
of medium-heavy doubly closed shell nuclei have been calculated in the
framework of the Correlated Basis Function theory, by using the Fermi
hypernetted chain resummation techniques. The calculations have been done by
using microscopic two-body nucleon-nucleon potentials of Argonne type, together
with three-body interactions. Operator dependent correlations, up to the tensor
channels, have been used.Comment: 6 pages, 3 figures, proceeding of the "XI Convegno su problemi di
Fisica Nucleare Teorica" 11-14 Ottobre 2006, Cortona, Ital
Ground state of medium-heavy doubly-closed shell nuclei in correlated basis function theory
The correlated basis function theory is applied to the study of medium-heavy
doubly closed shell nuclei with different wave functions for protons and
neutrons and in the jj coupling scheme. State dependent correlations including
tensor correlations are used. Realistic two-body interactions of Argonne and
Urbana type, together with three-body interactions have been used to calculate
ground state energies and density distributions of the 12C, 16O, 40Ca, 48Ca and
208Pb nuclei.Comment: Latex 10 pages, 3 Tables, 10 Figure
Renormalized Fermi hypernetted chain approach in medium-heavy nuclei
The application of the Correlated basis function theory and of the Fermi
hypernetted chain technique, to the description of the ground state of
medium-heavy nuclei is reviewed. We discuss how the formalism, originally
developed for symmetric nuclear matter, should be changed in order to describe
finite nuclear systems, with different number of protons and neutrons. This
approach allows us to describe doubly closed shell nuclei by using microscopic
nucleon-nucleon interactions. We presents results of numerical calculations
done with two-nucleon interactions of Argonne type,implemented with three-body
forces of Urbana type. Our results regard ground-state energies, matter, charge
and momentum distributions, natural orbits, occupation numbers, quasi-hole wave
functions and spectroscopic factors of 12C, 16O, 40Ca, 48Ca and 208Pb nuclei.Comment: 127 Pages, 37 figures, Accepted for publication in Physics Report
Looking for signals beyond the neutrino Standard Model
Any new neutrino physics at the TeV scale must include a suppression
mechanism to keep its contribution to light neutrino masses small enough. We
review some seesaw model examples with weakly broken lepton number, and comment
on the expected effects at large colliders and in neutrino oscillations.Comment: LaTeX 10 pages, 9 PS figures. Contribution to the Proceedings of the
XXXI International School of Theoretical Physics "Matter To The Deepest"
Ustron, Poland, September 5-11, 2007. Typos correcte
Las Reales Maestranzas de Caballería y su influencia en el mundo americano
Tomo II ; págs. 11-2
Triboson interpretations of the ATLAS diboson excess
The ATLAS excess in fat jet pair production is kinematically compatible with
the decay of a heavy resonance into two gauge bosons plus an extra particle.
This hypothesis would explain the absence of such a large excess in the
analogous CMS analysis of fat dijet final states, as well as the negative
results of diboson resonance searches in the semi-leptonic decay modes. If the
extra particle is the Higgs boson, this hypothesis might also explain
-statistical fluctuations aside- why the CMS search for WH resonances in the
semi-leptonic channel finds some excess while in the fully hadronic one it does
not have a significant deviation.Comment: LaTeX 17 pages. v2: Enlarged discussion to address CMS WH excess. v3:
Added discussion of diboson helicities. Final version to appear in JHE
Rare top decays t -> c gamma, t -> c g and CKM unitarity
Top flavour-changing neutral decays are extremely suppressed within the
Standard Model (SM) by the GIM mechanism, but can reach observable rates in
some of its extensions. We compute the branching ratios for t -> c gamma and t
-> c g in minimal SM extensions where the addition of a vector-like up or down
quark singlet breaks the unitarity of the 3 x 3 Cabibbo-Kobayashi-Maskawa (CKM)
matrix. The maximum rates obtained indicate to what extent present experimental
data allow 3 x 3 CKM unitarity to be broken in these models, and are too small
to be observed in the near future. As a by-product, we reproduce the
calculation of these branching ratios in the SM, and with an improved set of
parameters we obtain values one order of magnitude smaller than the ones
usually quoted in the literature. We study the CP asymmetries between the decay
rates of the top quark and antiquark, which can be much larger than in the SM,
also as a consequence of the partial breaking of 3 x 3 CKM unitarity.Comment: LaTeX, 15 pages, 12 PS figures, minor changes. To be published in PL
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