2,039 research outputs found
Bounds to the Higgs Sector Masses in Minimal Supersymmetry from LHC Data
We update our analysis of the Higgs sector masses in Minimal Supersymmetry
and in the Two-Higgs Doublet Model to the final ATLAS and CMS data from the
2011-2012 LHC run.Comment: 5 pages, 5 figures, comments added, references update
The New Pentaquarks in the Diquark Model
Pentaquark baryons are a natural expectation of an extended picture of
hadrons where quarks and diquarks are the fundamental units. The parity/mass
pattern observed, when compared to that of exotic mesons, appears as the
footprint of a compact five-quark structure. What has been learned from the
X,Y,Z phenomenology informs about the newly found pentaquark structure and
suggests further experimental tests and directions to be explored.Comment: 4 pages, 1 figure, to appear in PL
From Pentaquarks to Dibaryons in Lambda_b(5620) decays
Pentaquarks and dibaryons are natural possibilities if diquarks are used as
the building blocks to assemble hadrons. In this short note, motivated by the
very recent discovery of two pentaquark states, we highlight some possible
channels to search for dibaryons in Lambda_b(5620) decays.Comment: 2 pages, references added, minor modifications, to appear in Phys.
Lett.
A Theory of X and Z Multiquark Resonances
We introduce the hypothesis that diquarks and antidiquarks in tetraquarks are
separated by a potential barrier. We show that this notion can answer
satisfactorily long standing questions challenging the diquark-antidiquark
model of exotic resonances. The tetraquark description of X and Z resonances is
shown to be compatible with present limits on the non-observation of charged
partners X^+-, of the X(3872) and the absence of a hyperfine splitting between
two different neutral states. In the same picture, Z_c and Z_b particles are
expected to form complete isospin triplets plus singlets. It is also explained
why the decay rate into final states including quarkonia are suppressed with
respect to those having open charm/beauty states.Comment: 6 pages, 2 figures, some points clarified. To appear in PL
Indications of a Four-Quark Structure for the X(3872) and X(3876) Particles from Recent Belle and BABAR Data
Recent results by BELLE and BaBar point to the existence of a second X
particle decaying in D^0 D^0bar pi^0, a few MeV above the X(3872). We identify
the two X states with the neutral particles predicted by the 4-quark model and
show that production and decays are consistent with this assignement. We
consider the yet-to-be-observed charged partners and give new hints on how to
look for them.Comment: 5 pages, some revision of the text, results unchanged. To appear in
Phys. Rev. Let
The Hydrogen Bond of QCD
Using the Born-Oppenheimer approximation, we show that exotic resonances, X
and Z, may emerge as QCD molecular objects made of colored two-quark lumps,
states with heavy-light diquarks spatially separated from antidiquarks. With
the same method we confirm that doubly heavy tetraquarks are stable against
strong decays. Tetraquarks described here provide a new picture of exotic
hadrons, as formed by the QCD analog of the hydrogen bond of molecular physics.Comment: 5 pages, 3 figures, comments and references added. Table 1 extende
Heavier Higgs Particles: Indications from Minimal Supersymmetry
We use the most recent data on the Higgs-like resonance h observed at 125 GeV
to derive information about the mass of the heavier Higgs particles predicted
by Minimal Supersymmetry. We treat as independent parameters the couplings of h
to top quark, beauty and massive vector bosons and, in this three dimensional
space, we locate the point realizing the best fit to data and compare it to the
position of the Standard Model point and to the region of coupling values
accommodating heavier Higgs particles in Minimal Supersymmetry. We conclude
that mass values 320< M_H< 360 GeV are compatible at 2sigma with the best fit
of couplings to present data, larger values being compatible at the 1sigma
level. Values of 1< tan(beta)< 6 are compatible with data.Comment: 5 pages, 5 figures. Clarifications and new references adde
Neutron Production Rates by Inverse-Beta Decay in Fully Ionized Plasmas
Recently we showed that the nuclear transmutation rates are largely
overestimated in the Widom-Larsen theory of the so called `Low Energy Nuclear
Reactions'. Here we show that unbound plasma electrons are even less likely to
initiate nuclear transmutations.Comment: 9 pages, 1 Figure, minor revisions and clarifications, results
unchanged. To appear in EPJ
A note on polarized light from magnetars
In a recent paper it is claimed that vacuum birefringence has been experimentally observed for the first time by measuring the degree of polarization of visible light from a magnetar candidate, a neutron star with a magnetic field presumably as large as 10^13 G. The role of such a strong magnetic field is twofold. First, the surface of the star emits, at each point, polarized light with linear polarization correlated with the orientation of the magnetic field. Depending on the relative orientation of the magnetic axis of the star with the direction to the distant observer, a certain degree of polarization should be visible. Second, the strong magnetic field in the vacuum surrounding the star could enhance the effective degree of polarization observed: vacuum birefringence. We compare experimental data and theoretical expectations concluding that the conditions to support a claim of strong evidence of vacuum birefringence effects are not met
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