6,345 research outputs found
Tree Level Unitarity Bounds for the Minimal B-L Model
We have derived the unitarity bounds in the high energy limit for the minimal
B-L extension of the Standard Model by analysing the full class of Higgs and
would-be Goldstone boson two-to-two scatterings at tree level. Moreover, we
have investigated how these limits could vary at some lower critical value of
the energy.Comment: 20 pages, 4 figures, 2 tables; 1d figure modified, typos corrected,
bibliography augmented; published in PRD after minor adjustmen
The Z' boson of the minimal B-L model at future Linear Colliders in e+e- --> mu+mu-
We study the capabilities of future electron-positron Linear Colliders, with
centre-of-mass energy at the TeV scale, in accessing the parameter space of a
boson within the minimal model. We carry out a detailed comparison
between the discovery regions mapped over a two-dimensional configuration space
( mass and coupling) at the Large Hadron Collider and possible future
Linear Colliders for the case of di-muon production. As known in the literature
for other models, we confirm that leptonic machines, as compared to the
CERN hadronic accelerator, display an additional potential in discovering a
boson as well as in allowing one to study its properties at a level of
precision well beyond that of any of the existing colliders.Comment: 5 pages, proceeding of LC09 (Perugia), published by the Italian
Physical Society in the Nuovo Cimento C (Colloquia
Phenomenology of the minimal B-L extension of the Standard Model
We present the Large Hadron Collider (LHC) discovery potential in the
and heavy neutrino sectors of a enlarged Standard Model also
encompassing three heavy Majorana neutrinos. This model exhibits novel
signatures at the LHC, the most interesting arising from a decay chain
involving heavy neutrinos, eventually decaying into leptons and jets. In
particular, this signature allows one to measure the and heavy neutrino
masses involved. In addition, over a large region of parameter space, the heavy
neutrinos are rather long-lived particles producing distinctive displaced
vertices that can be seen in the detectors. Lastly, the simultaneous
measurement of both the heavy neutrino mass and decay length enables an
estimate of the absolute mass of the parent light neutrino. For completeness,
we will also compare the LHC and a future Linear Collider (LC) discovery
potentials.Comment: 4 pages, no figures. LaTeX. Talk given at "The 2009 Europhysics
Conference on High Energy Physics", Krakow, Poland, July 16-22, 200
Non-exotic signals in , and final states at the LHC
In the attempt to fully profile a boson accessible at the Large Hadron
Collider (LHC), we study the sensitivity of di-lepton (for the electron, muon
and tauon cases) and di-quark (for the case of the heavy flavours, and,
possibly, ) samples to the nature of the new gauge state, for a
one-dimensional class of non-exotic bosons. Assuming realistic final state
reconstruction efficiencies and error estimates, we find that, depending on the
CERN collider energy and luminosity, the best chances of extracting the
quantum numbers occur when two or more of these channels are simultaneously
explored, as none of them separately enables one to fully probe the parameter
spaces of the aforementioned models. Effects of Standard Model (SM) background
as well interferences between this and the various signals have been
accounted for. A complete study of cross sections and asymmetries (both spatial
and spin ones) makes clear the need for complementarity, especially for their
disentanglement over the full parameter space.Comment: 23 pages, 10 figures. Main revision of scopes; added section 2.4.3 to
describe strategy to fit couplings and table 3 to compare significances.
Updated/added references. Results unchange
Natural model with an inverse seesaw and leptonic dark matter
We consider a model for a Z'-boson coupled only to baryon minus lepton number
and hypercharge. Besides the usual right-handed neutrinos, we add a pair of
fermions with a fractional lepton charge, which we therefore call leptinos. One
of the leptinos is taken to be odd under an additional Z_2 charge, the other
even. This allows for a natural (inverse) seesaw mechanism for neutrino masses.
The odd leptino is a candidate for dark matter, but has to be resonantly
annihilated by the Z'-boson or the Higgs-boson responsible for giving mass to
the former. Considering collider and cosmological bounds on the model, we find
that the Z'-boson and/or the extra Higgs-boson can be seen at the LHC. With
more pairs of leptinos leptogenesis is possible.Comment: 29 pages, 9 figures. RGE section moved to appendix and other minor
corrections applied to matched published versio
phenomenology at LHC
We study the phenomenology for two extensions of the Electroweak
Standard Model (SM) which have an extra gauge factor. We show the
capabilities of the LHC in distinguishing the signals coming from these two
extensions and both of them from the Standard Model background. In order to
compare the behavior of these models we consider the reaction and compute some observables as the total
cross sections, number of events, forward-backward asymmetry, final particle
distributions like rapidity, transverse momentum, and dimuon invariant mass,
for two LHC regimes: TeV () and
TeV () for = 1000 GeV and 1500
GeV. We show that by using appropriate kinematic cuts some of the observables
considered here are able to extract different properties of the
boson, and hence providing information about to which model it belongs
to.Comment: 21 pages, 17 figures, 4 table
Resonant Leptogenesis in the Minimal B-L Extended Standard Model at TeV
We investigate the resonant leptogenesis scenario in the minimal B-L extended
standard model(SM) with the B-L symmetry breaking at the TeV scale. Through
detailed analysis of the Boltzmann equations, we show how much the resultant
baryon asymmetry via leptogenesis is enhanced or suppressed, depending on the
model parameters, in particular, the neutrino Dirac Yukawa couplings and the
TeV-scale Majorana masses of heavy degenerate neutrinos. In order to consider a
realistic case, we impose a simple ansatz for the model parameters and analyze
the neutrino oscillation parameters and the baryon asymmetry via leptogenesis
as a function of only a single CP-phase. We find that for a fixed CP-phase all
neutrino oscillation data and the observed baryon asymmetry of the present
universe can be simultaneously reproduced.Comment: 25 pages, 15 figures, version to be published in Phys. Rev.
A comparison of efficient permutation tests for unbalanced ANOVA in two by two designs--and their behavior under heteroscedasticity
We compare different permutation tests and some parametric counterparts that
are applicable to unbalanced designs in two by two designs. First the different
approaches are shortly summarized. Then we investigate the behavior of the
tests in a simulation study. A special focus is on the behavior of the tests
under heteroscedastic variances.Comment: 20 pages, 9 figures, Working Paper of the Department of Management
And Enigineering of the University of Padov
Is demagnetization an efficient optimization method?
Demagnetization, commonly employed to study ferromagnets, has been proposed
as the basis for an optimization tool, a method to find the ground state of a
disordered system. Here we present a detailed comparison between the ground
state and the demagnetized state in the random field Ising model, combing exact
results in and numerical solutions in . We show that there are
important differences between the two states that persist in the thermodynamic
limit and thus conclude that AC demagnetization is not an efficient
optimization method.Comment: 2 pages, 1 figur
- …