436 research outputs found
Charm Production in -Collisions at the Charmonium Threshhold
We discuss the production of charmonium states in antiproton-nucleus
collisions at the threshold. It is explained that measurements in collisions will allow to get new information about the strengths of the
inelastic and interaction, on the production of
and in charmonium-nucleon interactions and for the first time about
the nondiagonal transitions . The inelastic
-nucleon cross section is extracted from the comparison of
hadron-nucleus collisions with hadron-nucleon collisions. Predictions for the
ratio of to yields in antiproton-nucleus scatterings close to
the threshold of production for different nuclear targets are
presented.Comment: Talk given at International Conference on Low Energy Antiproton
Physics (LEAP'05), Bonn, Juelich, Germany, 16-22 May 200
Charm production in antiproton-nucleus collisions at the and the thresholds
We discuss the production of charmonium states in antiproton-nucleus
collisions at the threshold. It is explained that measurements in collisions will allow to get new information about the strengths of the
inelastic interaction, on the production of and
in charmonium-nucleon interactions and for the first time about
nondiagonal transitions . The inelastic -nucleon
cross section is extracted from the comparison of hadron-nucleus collisions
with hadron-nucleon collisions. We extract the total nucleon cross
section from photon-nucleon collisions by accounting for the color transparency
phenomenon within the frame of the GVDM (Generalized Vector meson Dominance
Model). We evaluate also within the GVDM the inelastic -nucleon cross
section as well as the cross section for the nondiagonal transitions.
Predictions for the ratio of to yields in antiproton-nucleus
scatterings close to the threshold of production for different nuclear
targets are presented.Comment: 13 pages, 10 figures, typos corrected, some discussion adde
Charmonium Suppression - Interplay of Hadronic and Partonic Degrees of Freedom
Last year the E866-group of the Fermilab measured the dependence of
and suppression in collisions. We discuss two of the
effects found in that experiment with regard to color coherence effects: the
different suppression of the and the at and the
significant suppression of both at large . The small regions is
dominated by fully formed charmonium states and thus enables us to discuss the
formation time and the cross section of the different charmonium states. In the
large region the interaction of the charmonium states with nuclear matter
has to be described by partonic degrees of freedom, because in that kinematic
domain the formation time is much larger than the nuclear radii. The
understanding of this region will be crucial for the interpretation of the data
of the future heavy ion colliders RHIC and LHC.Comment: 4 pages, 1 table, 1 figure, Contribution to the Proceedings of the
15th Particles and Nuclei International Conference (PANIC 99), Uppsala,
Sweden, June 10-16, 199
Critical Review Of Quark Gluon Plasma Signals
Compelling evidence for a new form of matter has been claimed to be formed in
Pb+Pb collisions at SPS. We critically review two suggested signatures for this
new state of matter: First the suppression of the J/, which should be
strongly suppressed in the QGP by two different mechanisms, the color-screening
and the QCD-photoeffect. Secondly the measured particle, in particular strange
hadronic, ratios might signal the freeze-out from a quark-gluon phase.Comment: 7 pages 6 figures, Contribution to the Proceedings of CRIS 2000, 3rd
Catania Relativistic Ion Studies, Acicastello, Italy, May 22-26, 200
Charmonium suppression from purely geometrical effects
The extend to which geometrical effects contribute to the production and
suppression of the and minijet pairs in general is
investigated for high energy heavy ion collisions at SPS, RHIC and LHC
energies. For the energy range under investigation, the geometrical effects
referred to are shadowing and anti-shadowing, respectively. Due to those
effects, the parton distributions in nuclei deviate from the naive
extrapolation from the free nucleon result; . The strength
of the shadowing/anti-shadowing effect increases with the mass number. The
consequences of gluonic shadowing effects for the distribution of
's at GeV, GeV and TeV are
calculated for some relevant combinations of nuclei, as well as the
distribution of minijets at midrapidity for in the final state.Comment: corrected some typos, improved shadowing ratio
Translocation of structured polynucleotides through nanopores
We investigate theoretically the translocation of structured RNA/DNA
molecules through narrow pores which allow single but not double strands to
pass. The unzipping of basepaired regions within the molecules presents
significant kinetic barriers for the translocation process. We show that this
circumstance may be exploited to determine the full basepairing pattern of
polynucleotides, including RNA pseudoknots. The crucial requirement is that the
translocation dynamics (i.e., the length of the translocated molecular segment)
needs to be recorded as a function of time with a spatial resolution of a few
nucleotides. This could be achieved, for instance, by applying a mechanical
driving force for translocation and recording force-extension curves (FEC's)
with a device such as an atomic force microscope or optical tweezers. Our
analysis suggests that with this added spatial resolution, nanopores could be
transformed into a powerful experimental tool to study the folding of nucleic
acids.Comment: 9 pages, 5 figure
Suppression of Quarkonium Production in Heavy Ion Collisions at RHIC and LHC
A model for the production of quarkonium states in the midrapidity region at
RHIC and LHC energy range is presented which explores well understood
properties of QCD only. An increase of the quarkonium hadronisation time with
the initial energy leads to a gradual change of the most important phenomena
from fixed target- to collider-energies. We evaluate nuclear effects in the
quarkonium production due to medium modification of the momentum distribution
of the heavy quarks produced in the hard interactions, i.e. due to the
broadening of the transverse momentum distribution. Other nuclear effects, i.e.
nuclear shadowing and parton energy loss, are also evaluated.Comment: 5 pages, 1 table, 1 figure, Contribution to the Proceedings of the V
International Conference on Strangeness in Quark Matter July 20-25, 2000
Berkeley, Californi
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