8,070 research outputs found
Momentum Space Integral Equations for Three Charged Particles: Diagonal Kernels
It has been a long-standing question whether momentum space integral
equations of the Faddeev type are applicable to reactions of three charged
particles, in particular above the three-body threshold. For, the presence of
long-range Coulomb forces has been thought to give rise to such severe
singularities in their kernels that the latter may lack the compactness
property known to exist in the case of purely short-range interactions.
Employing the rigorously equivalent formulation in terms of an
effective-two-body theory we have proved in a preceding paper [Phys. Rev. C
{\bf 61}, 064006 (2000)] that, for all energies, the nondiagonal kernels
occurring in the integral equations which determine the transition amplitudes
for all binary collision processes, possess on and off the energy shell only
integrable singularities, provided all three particles have charges of the same
sign, i.e., all Coulomb interactions are repulsive. In the present paper we
prove that, for particles with charges of equal sign, the diagonal kernels, in
contrast, possess one, but only one, nonintegrable singularity. The latter can,
however, be isolated explicitly and dealt with in a well-defined manner. Taken
together these results imply that modified integral equations can be
formulated, with kernels that become compact after a few iterations. This
concludes the proof that standard solution methods can be used for the
calculation of all binary (i.e., (in-)elastic and rearrangement) amplitudes by
means of momentum space integral equations of the effective-two-body type.Comment: 36 pages, 2 figures, accepted for publication in Phys. Rev.
Long-range behavior of the optical potential for the elastic scattering of charged composite particles
The asymptotic behavior of the optical potential, describing elastic
scattering of a charged particle off a bound state of two charged, or
one charged and one neutral, particles at small momentum transfer
or equivalently at large intercluster distance
, is investigated within the framework of the exact three-body
theory. For the three-charged-particle Green function that occurs in the exact
expression for the optical potential, a recently derived expression, which is
appropriate for the asymptotic region under consideration, is used. We find
that for arbitrary values of the energy parameter the non-static part of the
optical potential behaves for as
. From this we derive for the
Fourier transform of its on-shell restriction for the behavior , i.e.,
dipole or quadrupole terms do not occur in the coordinate-space asymptotics.
This result corroborates the standard one, which is obtained by perturbative
methods. The general, energy-dependent expression for the dynamic
polarisability is derived; on the energy shell it reduces to the
conventional polarisability which is independent of the energy. We
emphasize that the present derivation is {\em non-perturbative}, i.e., it does
not make use of adiabatic or similar approximations, and is valid for energies
{\em below as well as above the three-body dissociation threshold}.Comment: 35 pages, no figures, revte
The Local Semicircle Law for Random Matrices with a Fourfold Symmetry
We consider real symmetric and complex Hermitian random matrices with the
additional symmetry . The matrix elements are independent
(up to the fourfold symmetry) and not necessarily identically distributed. This
ensemble naturally arises as the Fourier transform of a Gaussian orthogonal
ensemble (GOE). It also occurs as the flip matrix model - an approximation of
the two-dimensional Anderson model at small disorder. We show that the density
of states converges to the Wigner semicircle law despite the new symmetry type.
We also prove the local version of the semicircle law on the optimal scale.Comment: 20 pages, to appear in J. Math. Phy
Chemical equilibrium study at SPS 158A GeV
A detailed study of chemical freeze-out in nucleus-nucleus collisions at beam
energy 158A GeV is presented. By analyzing hadronic multiplicities within the
statistical hadronization approach, the chemical equilibration of p-p, C-C,
Si-Si and Pb-Pb systems is studied as a function of the number of participating
nucleons in the system. Additionally, Two Component statistical hadronization
model is applied to the data and is found to be able to explain the observed
strangeness hadronic phase space under-saturation.Comment: 4 pages, 3 figures to appear in the proceedings of the ''Strangeness
in Quark Matter 2004'' conferenc
Obesity and spatial context in Appalachia
The prevalence of obesity has increased substantially over the past 30 years. Obesity is a multi-factorial disorder, which is often associated with many other significant diseases such as diabetes, hypertension and other cardiovascular diseases, osteoarthritis and certain cancers. For these reasons, it is a complex health issue to address. The objective of this study is to identify the factors which are responsible for the spatial variation of adult obesity throughout the Appalachian region. In addition, preliminary examinations are made to identify potential associations between geographic variability in the prevalence of obesity and the characteristics of individuals and places with variable prevalence rates. Obese prevalence estimates were generated for all counties in Appalachia for adult males and females using data from the Behavioral Risk Factor Surveillance System (BRFSS). These data were used to create maps of obesity prevalence in Appalachia. Certain counties consistently experience higher prevalence of obesity for both genders. In areas with persistently high obesity prevalence rates, the burden is often highly localized among specific counties. A regression model was implemented to analyze the effect of a number of factors on obesity. Two significant contextual factors, employment change and labor force participation, were identified, even though they have not been addressed in the literature. The regression model results demonstrate poverty having a significant impact on female obesity, but no significant impact on male obesity. The regression model also found that urban-rural location is significant, but gender specific only for males in non-metro areas and small metro areas
Photoproduction of the doubly-strange Xi Hyperons
We report on the first measurement of exclusive Xi- and Xi0 photoproduction.
The Xi- states are produced in the reaction gamma p --> K+ K+ Xi-, and the Xi0
states in gamma p --> K+ K+ pi- Xi0. Identification is made by the unique mass
measured as the missing mass of the K+ K+ (or K+ K+ pi-) system using the CLAS
detector at the Thomas Jefferson National Accelerator Facility. A systematic
study of the excited Xi spectrum improves our understanding of the N* and
Delta* states, since the Xi* states are related to them by SU(3) flavor
symmetry. At the highest energies available at Jefferson Lab, we begin to find
evidence for known excited Xi- states in the photoproduction process, and
possibly new states at 1770 and 1860 MeV, although we do not have enough
statistics to draw a strong conclusion. A search for the Xi5--(1862) pentaquark
state seen by NA49 is made using the process gamma p -> K+ K+ pi+ X, but the
result is inconclusive for lack of statistics.Comment: 7 pages, 9 figures; invited talk given at the 8th International
Conference on Hypernuclear and Strange Particle Physics, Jefferson Lab,
Newport News, VA, 14-18 October 200
- …