1,170 research outputs found
Magnetic Moments of Heavy Baryons in Light Cone QCD Sum Rules
The magnetic moments of heavy baryons containing a single charm or
bottom quark are calculated in the framework of light cone QCD sum rules
method. A comparison of our results with the predictions of the quark models is
presented.Comment: 26 Pages, 8 Figures and 1 Tabl
Electromagnetic form factors of the (rho) meson in light cone QCD sum rules
We investigate the electromagnetic form factors of the (rho) meson in light
cone QCD sum rules. We find that the ratio of the magnetic and charge form
factors is larger than two at all values of Q^2, (Q^2 >= 0.5 GeV^2). The values
of the individual form factors at fixed values of Q^2 predicted by the light
cone QCD sum rules are quite different compared to the results of other
approaches. These results can be checked in future, when more precise data on
(rho) meson form factors is available.Comment: 12 pages, 6 figures, LaTeX formatte
Vertical dipoles to detect self potential signals in a seismic area of southern Italy: Tito station
International audienceSince 2000 the Institute of Methodologies for the Environmental Analysis (National Council of Research, Tito, Italy) installed a geophysical monitoring network able to detect geoelectric, geochemic and seismometric parameters in seismic areas of southern Italy. During this period a very large data-base of geophysical time series has been organized and it is actually available to assess robust statistical methodologies to identify geophysical anomalous patterns linked with local seismicity. To better understand the influence of rain and cultural noise on geoelectrical signals (Self Potential), during May 2004 we drilled in Tito station a 20 m-depth hole to measure the SP vertical component. The array is characterized by five Pb-PbCl2 electrodes put at different depths. The common electrode is fixed at 20 m. In this work we present some electrical anomalies probably correlated with local seismic activity on vertical dipoles recorded in Tito station
Multifractal variability in geoelectrical signals and correlations with seismicity: a study case in southern Italy
International audienceMultifractal fluctuations in the time dynamics of geoelectrical data, recorded in a seismic area of southern Italy, have been revealed using the Multifractal Detrended Fluctuation Analysis (MF-DFA), which allows to detect multifractality in nonstationary signals. Our findings show that the geoelectrical time series, recorded in the seismic area of southern Apennine Chain (Italy), is multifractal. The time evolution of the multifractality suggests that the multifractal degree increases prior the occurrence of earthquakes. This study aims to propose another approach to investigate the complex dynamics of earthquake-related geoelectrical signals
Rare Radiative Transition in QCD
We investigate the radiative transition in the
framework of QCD sum rules. In particular, we calculate the transition form
factors responsible for this decay in both weak annihilation and
electromagnetic penguin channels using the quark condensate, mixed and
two-gluon condensate diagrams as well as propagation of the soft quark in the
electromagnetic field as non-perturbative corrections. These form factors are
then used to estimate the branching ratios of the channels under consideration.
The total branching ratio of the transition is
obtained to be in order of , and the dominant contribution comes from
the weak annihilation channel.Comment: 24 Pages and 3 Figure
Weak decays of heavy hadron molecules involving the f0(980)
We study weak decays of the charm- and bottom-strange mesons Ds0*(2317),
Ds1(2460), Bs0*(5725) and Bs1(5778) with f0(980) in the final state by assuming
a hadronic molecule interpretation for their structures. Since in the proposed
framework the initial and final states are occupied by hadronic molecules, the
predictions for observables can provide a sensitive tool to further test the
hadronic molecule structure in future experiments.Comment: 11 pages, 5 figures, accepted for publication in Phys. Rev.
Chiral Lagrangians with tensor sources
The implementation of tensor sources in Chiral Lagrangians allows the
computation of Green functions and form factors involving tensor currents, that
is, quark bilinears of the form \bar{q}_i\sigma^{\mu\nu}q_j. Whereas only four
new terms show up at O(p^4), we find around a hundred of them at O(p^6). So it
becomes essential to ensure that this set o operators is indeed minimal and
non-redundant (i.e., it is a basis). We discuss two phenomenological
applications in the context of vector meson resonances and the radiative pion
decay.Comment: Talk given at the 4th International Worshop on Quantum
ChromoDynamics, Theory and experiment, June 16-20, 2007. Martina Franca -
Valle d'Itria - Ital
Strong Interactions at Low Energy
The lectures review some of the basic concepts relevant for an understanding
of the low energy properties of the strong interactions: chiral symmetry,
spontaneous symmetry breakdown, Goldstone bosons, quark condensate. The
effective field theory used to analyze the low energy structure is briefly
sketched. As an illustration, I discuss the implications of the recent data on
the decay for the magnitude of the quark condensate.Comment: Lectures given at the school of physics "Understanding the structure
of hadrons", Prague, July 2001, 20 p
Pseudoscalar--meson decuplet--baryon coupling constants in light cone QCD
Taking into account the breaking effects, the strong coupling
constants of the , and mesons with decuplet baryons are
calculated within light cone QCD sum rules method. It is shown that all
coupling constants, even in the case of breaking, are described in
terms of only one universal function. It is shown that for transition violation of symmetry is very large
and for other channels when symmetry is violated, its maximum value
constitutes .Comment: 17 Pages, one Figure and 3 Table
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