59 research outputs found
What does `rho-exchange' in piN scattering mean?
We present an alternative method for calculating amplitudes for correlated pi
pi exchange in the ``sigma'' and rho channel in piN scattering. Starting from a
fixed mass meson exchange potential, we introduce the width of the exchanged
particles by integrating over a mass spectral function. The spectral functions
are constructed from the pseudoempirical N\bar{N} -> pi pi data. Using this
approach we develop a prescription for resolving ambiguities of the correlated
pi pi exchange in the rho channel that occur when different dispersion
theoretical formulations of rho exchange are used to construct piN potentials.Comment: 17 pages, 5 figures, uses revtex and epsfi
Pion-nucleon scattering in a meson-exchange model
The pi-N interaction is studied within a meson-exchange model and in a
coupled-channels approach which includes the channels pi-N, eta-N, as well as
three effective pi-pi-N channels namely rho-N, pi-Delta, and sigma-N. Starting
out from an earlier model of the Julich group systematic improvements in the
dynamics and in some technical aspects are introduced. With the new model an
excellent quantitative reproduction of the pi-N phase shifts and inelasticity
parameters in the energy region up to 1.9 GeV and for total angular momenta J
leq 3/2 is achieved. Simultaneously, good agreement with data for the total and
differential pi-N -> eta-N transition cross sections is obtained. The
connection of the pi_N dynamics in the S_{11} partial wave with the reaction
pi-N -> eta-N is discussed.Comment: 32 pages, 9 figure
Enhancement of Threshold Cross Sections by In-Medium Final State Interactions
We address the problem of pion production in low energy -nucleus
collisions. For the production mechanism we assume a simple model consisting of
a coherent sum of single pion exchange and the excitation---followed by the
decay into two pions and a nucleon---of the resonance. The
production amplitude is modified by the final state interaction between the
pions calculated using the chirally improved J\"ulich meson exchange model
including the polarization of the nuclear medium by the pions. The model
reproduces well the experimentally observed cross
sections, especially the enhancement with increasing of the
mass distribution in the threshold region.Comment: 5 pages RevTeX, 3-eps figure
What is the structure of the Roper resonance?
We investigate the structure of the nucleon resonance N^*(1440) (Roper)
within a coupled-channel meson exchange model for pion-nucleon scattering. The
coupling to pipiN states is realized effectively by the coupling to the sigmaN,
piDelta and rhoN channels. The interaction within and between these channels is
derived from an effective Lagrangian based on a chirally symmetric Lagrangian,
which is supplemented by well known terms for the coupling of the Delta isobar,
the omega meson and the 'sigma', which is the name given here to the strong
correlation of two pions in the scalar-isoscalar channel. In this model the
Roper resonance can be described by meson-baryon dynamics alone; no genuine
N^*(1440) (3 quark) resonance is needed in order to fit piN phase shifts and
inelasticities.Comment: 55 pages, 14 figure
The Use of Flight Progress Strips While Working Live Traffic: Frequencies, Importance, and Perceived Benefits
The Federal Aviation Administration's effort to automate air traffic control (ATC) requires that the functionality provided today be captured in future systems. We report the first quantitative naturalistic observation of paper flight progress strip interactions during operational use. Strip use was similar in a variety of situations, but some uses varied as a function of altitude, staffing, or the cooperative style used by controller teams. Design of automation should proceed by prioritizing changes based on frequency of use and importance and should ensure that an effective method of interacting with flight information is incorporated. In addition to applied relevance to the ATC domain, the results touch on several theoretical concerns relevant to dynamic environments. Actual and potential applications of this research include the establishment of a database of strip activity and an arsenal of information valuable to system designers.Yeshttps://us.sagepub.com/en-us/nam/manuscript-submission-guideline
Phenotypic microarrays suggest Escherichia coli ST131 is not a metabolically distinct lineage of extra-intestinal pathogenic E. coli
Extraintestinal pathogenic E. coli (ExPEC) are the major aetiological agent of urinary tract infections (UTIs) in humans. The emergence of the CTX-M producing clone E. coli ST131 represents a major challenge to public health worldwide. A recent study on the metabolic potential of E. coli isolates demonstrated an association between the E. coli ST131 clone and enhanced utilisation of a panel of metabolic substrates. The studies presented here investigated the metabolic potential of ST131 and other major ExPEC ST isolates using 120 API test reagents and found that ST131 isolates demonstrated a lower metabolic activity for 5 of 120 biochemical tests in comparison to non-ST131 ExPEC isolates. Furthermore, comparative phenotypic microarray analysis showed a lack of specific metabolic profile for ST131 isolates countering the suggestion that these bacteria are metabolically fitter and therefore more successful human pathogens
-meson production in proton-proton collisions
The production of -mesons in proton-proton collisions is investigated
within a relativistic meson-exchange model of hadronic interactions. The
experimental prerequisites for extracting the coupling strength from
this reaction are discussed. In the absence of a sufficient set of data, which
would enable an accurate determination of the coupling strength, we
perform a combined analysis, based on some reasonable assumptions, of the
existing data for both - and -meson production. We find that the
recent data from the DISTO collaboration on the angular distribution of the
meson indicate that the coupling constant is small. The
analysis yields values for that are compatible with the OZI rule.Comment: 21 pages, 3 figures, submitted to Phys.Rev.
Vector meson production and nucleon resonance analysis in a coupled-channel approach for energies m_N < sqrt(s) < 2 GeV I: pion-induced results and hadronic parameters
We present a nucleon resonance analysis by simultaneously considering all
pion- and photon-induced experimental data on the final states gamma N, pi N, 2
pi N, eta N, K Lambda, K Sigma, and omega N for energies from the nucleon mass
up to sqrt(s) = 2 GeV. In this analysis we find strong evidence for the
resonances P_{31}(1750), P_{13}(1900), P_{33}(1920), and D_{13}(1950). The
omega N production mechanism is dominated by large P_{11}(1710) and
P_{13}(1900) contributions. In this first part, we present the results of the
pion-induced reactions and the extracted resonance and background properties
with emphasis on the difference between global and purely hadronic fits.Comment: 54 pages, 26 figures, discussion extended, typos corrected,
references updated, to appear in Phys. Rev.
Vacuum Contributions in a Chiral Effective Lagrangian for Nuclei
A relativistic hadronic model for nuclear matter and finite nuclei, which
incorporates nonlinear chiral symmetry and broken scale invariance, is
presented and applied at the one-baryon-loop level to finite nuclei. The model
contains an effective light scalar field that is responsible for the mid-range
nucleon--nucleon attraction and which has anomalous scaling behavior. One-loop
vacuum contributions in this background scalar field at finite density are
constrained by low-energy theorems that reflect the broken scale invariance of
quantum chromodynamics. A mean-field energy functional for nuclear matter and
nuclei is derived that contains small powers of the fields and their
derivatives, and the validity of this truncation is discussed. Good fits to the
bulk properties of finite nuclei and single-particle spectra are obtained.Comment: 24 pages, RevTex, 5 figures, uuencoded compressed postscrip
Near-threshold and meson productions in collisions
Using a relativistic effective Lagrangian at the hadronic level,
near-threshold and meson productions in proton proton ()
collisions, , are studied within the distorted wave
Born approximation. Both initial and final state interactions are
included. In addition to total cross section data, both and
angular distribution data are used to constrain further the model parameters.
For the reaction we consider two different possibilities:
with and without the inclusion of nucleon resonances. The nucleon resonances
are included in a way to be consistent with the
reaction. It is shown that the inclusion of nucleon resonances can describe the
data better overall than without their inclusion. However, the SATURNE data in
the range of excess energies MeV are still underestimated by about a
factor of two. As for the reaction it is found that the
presently limited available data from DISTO can be reproduced by four sets of
values for the vector and tensor coupling constants. Further
measurements of the energy dependence of the total cross section near threshold
energies should help to constrain better the coupling constant.Comment: Latex, 37 pages, 13 figures (14 EPS-figure files), text modified,
version to appear in Phys. ReV.
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