127,547 research outputs found
Nuclear Medium Modifications of Hadrons from Generalized Parton Distributions
We study the structure of generalized parton distributions in spin 0 nuclei
within a microscopic approach for nuclear dynamics. GPDs can be used on one
side as tools to unravel the deep inelastic transverse structure of nuclei in
terms of both transverse spatial and transverse momentum degrees of freedom. On
the other, one can obtain information on GPDs themselves by observing how they
become modified in the nuclear environment. We derive the structure of the
nuclear deeply virtual Compton scattering tensor and generalized parton
distributions at leading order in in a field-theoretical framework. The
nuclear generalized parton distributions are calculated using a two step
process -- the convolution approach -- where the scattering process happens
from a quark inside a nucleon, itself inside a nucleus, disregarding final
state interactions with both the nuclear and nucleon debris. We point out that
details of the nuclear long range interactions such as two-body currents, can
be disregarded compared to the deep inelastic induced modifications of the
bound GPDs. We show how the pattern of nuclear modifications predicted, and in
particular the deviations of off-shell effects from the longitudinal
convolution provide clear signals to be sought in experimental measurements.
Finally, we find interesting relationships by studying Mellin moments in
nuclei: in particular we predict the -dependence for the -term of GPDs
within a microscopic approach, and the behavior with of the total momentum
carried by quarks in a nucleus. The latter provides an important element for
the evaluation of nuclear hadronization phenomena which are vital for
interpreting current and future data at RHIC, HERMES and Jefferson Lab.Comment: 29 pages, 10 figure
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Electromagnetic Probes of Strongly Interacting Matter: Probes of Chiral Symmetry Restoration?
The QCD sum rule approach to in-medium modifications of the omega meson in
nuclear matter is reviewed with emphasis of its relation to 4-quark condensates
and chiral symmetry restoration. Possible implications of the CB-TAPS
experiment for the reaction gamma A -> A' omega (-> pi0 gamma) are sketched and
the particularly important role of di-electron probes, accessible with HADES,
is highlighted. A brief update of a parametrization of the previous dilepton
and photon probes from CERES and WA98 of heavy-ion collisions at CERN-SPS
energies is presented.Comment: Contribution to Workshop on In-Medium Hadron Physics, Giessen, Nov.
11-13; 11 page
Performance-related Funding of Universities – Does more Competition Lead to Grade Inflation?
German universities are regarded as being under-financed, inefficient, and performing below average if compared to universities in other European countries and the US. Starting in the 1990s, several German federal states implemented reforms to improve this situation. An important part of these reforms has been the introduction of indicator-based funding systems. These financing systems aimed at increasing the competition between universities by making their public funds dependent on their relative performance concerning different output measures, such as the share of students obtaining a degree or the amount of third party funds. This paper evaluates whether the indicator-based funding created unintended incentives, i.e. whether the reform caused a grade inflation. Estimating mean as well as quantile treatment effects, we cannot support the hypothesis that increased competition between universities causes grade inflation.Grade inflation; higher education funding; university competition
The Functions and Practices of a Television Network
An Iterative Learning Control disturbance rejection approach is considered and it is shown that iteration variant learning filters can asymptotically give the controlled variable zero error and zero variance. Convergence is achieved with the assumption that the relative model error is less than one. The transient response of the suggested ILC algorithm is also discussed using a simulation example
Non Abelian Geometrical Tachyon
We investigate the dynamics of a pair of coincident D5 branes in the
background of NS5 branes. It has been proposed by Kutasov that the system
with a single probing D-brane moving radially in this background is dual to the
tachyonic DBI action for a non-BPS Dp brane. We extend this proposal to the
non-abelian case and find that the duality still holds provided one promotes
the radial direction to a matrix valued field associated with a non-abelian
geometric tachyon and a particular parametrization for the transverse scalar
fields is chosen. The equations of motion of a pair of coincident D5 branes
moving in the NS5 background are determined. Analytic and numerical solutions
for the pair are found in certain simplified cases in which the U(2) symmetry
is broken to corresponding to a small transverse separation
of the pair. For certain range of parameters these solutions describe periodic
motion of the centre of mass of the pair 'bouncing off' a finite sized throat
whose minimum size is limited by the D5 branes separation.Comment: 18 pages, 2 figures, PdfLatex: references added.accepted for
publication in JHE
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