17,524 research outputs found
photoproduction on the quasi-free nucleons in the chiral quark model
A chiral quark-model approach is adopted to study the  photoproduction
off the quasi-free neutron and proton from a deuteron target. Good descriptions
of the differential cross sections, total cross sections and beam asymmetries
for these two processes are obtained in the low energy region. For , the dominant resonances are ,
, ,  and . While for
the  process, the dominant resonances are
, , ,  and
. Furthermore, the  channel backgrounds have significant
contributions to the  photoproduction processes. The configuration
mixings in the  and  can be extracted,
i.e.  and . It shows that the
narrow bump-like structure around  GeV observed in  can be naturally explained by the constructive
interferences between  and . In contrast, the
destructive interference between  and  produces the
shallow dip around  GeV in . The  wave
interfering behaviors in the proton and neutron reactions are correlated with
each other in the quark model framework, and no new exotic nucleon resonances
are needed in these two reactions.Comment: 12 pages, 11 figures, helicity amplitudes are added, to be published
  in PR
Superfluidity in the absence of kinetics in spin-orbit-coupled optical lattices
At low temperatures bosons typically condense to minimize their
single-particle kinetic energy while interactions stabilize superfluidity.
Optical lattices with artificial spin-orbit coupling challenge this paradigm
because here kinetic energy can be quenched in an extreme regime where the
single-particle band flattens. To probe the fate of superfluidity in the
absence of kinetics we construct and numerically solve interaction-only
tight-binding models in flat bands. We find that novel superfluid states arise
entirely from interactions operating in quenched kinetic energy bands, thus
revealing a distinct and unexpected condensation mechanism. Our results have
important implications for the identification of quantum condensed phases of
ultracold bosons beyond conventional paradigms.Comment: 7 pages, 6 figure
Transition form factors of B decays into p-wave axial-vector mesons in the perturbative QCD approach
The  form factors are studied in perturbative QCD approach
( denote a vector meson and two kinds of p-wave axial-vector mesons:
 and  states, respectively.). The form factors are directly
studied in the large recoiling region and extrapolated to the whole kinematic
region within the dipole parametrization. Adopting decay constants with
different signs for the two kinds of axial-vectors, we find that the two kinds
of  form factors have the same sign. The two strange mesons 
and  mix with each other via the SU(3) symmetry breaking effect. In
order to reduce the ambiguities in the mixing angle between  and
, we propose a model-independent way that utilizes the B decay data.
Most of the branching fractions of the semilteptonic  decays
are of the order , which still need experimental tests in the on-going
and forthcoming experiments.Comment: 22 pages, 7 figure
Equivalence theory for density estimation, Poisson processes and Gaussian white noise with drift
This paper establishes the global asymptotic equivalence between a Poisson
process with variable intensity and white noise with drift under sharp
smoothness conditions on the unknown function. This equivalence is also
extended to density estimation models by Poissonization. The asymptotic
equivalences are established by constructing explicit equivalence mappings. The
impact of such asymptotic equivalence results is that an investigation in one
of these nonparametric models automatically yields asymptotically analogous
results in the other models.Comment: Published at http://dx.doi.org/10.1214/009053604000000012 in the
  Annals of Statistics (http://www.imstat.org/aos/) by the Institute of
  Mathematical Statistics (http://www.imstat.org
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