188 research outputs found
Intranuclear cascade models lack dynamic flow
We study the recent claim that the intranuclear cascade model exhibits collective sidewards flow. 4000 intranuclear cascade simulations of the reaction Nb(400 MeV/nucleon)+Nb are performed employing bound and unbound versions of the Cugnon cascade. We show that instability of the target and projectile nuclei in the unbound cascade produces substantial spurious sidewards flow angles, for spectators as well as for participants. Once the nuclear binding is included, the peak of the flow angle distributions for the participants alone is reduced from 35° to 17°. The theoretical ‘‘data’’ are subjected to the experimental multiplicity and efficiency cuts of the plastic ball 4π electronic spectrometer system. The flow angular distributions obtained from the bound cascade—with spectators and participants subjected to the plastic ball filter—are forward peaked, in contrast to the plastic ball data. We discuss the uncertainties encountered with the application of the experimental efficiency and multiplicity filter. The influence of the Pauli principle on the flow is also discussed. The lack of flow effects in the cascade model clearly reflects the absence of the nuclear compression energy that can cause substantially larger collective sidewards motion—there is too little intrinsic pressure built up in the cascade model
Investigation of background subtraction techniques for high mass dilepton physics
The signals in high mass dilepton spectroscopy with nucleus-nucleus
collisions at collider energies are superimposed on a generally large
combinatorial background. Because this background contains a significant
correlated like-sign component originating from B meson decays, the "like-sign"
method to determine the background is inappropriate. We discuss strategies to
deal with the correlations in the background. By taking advantage of the B
meson oscillation mechanism and of the particular features of B meson decays a
new method to measure the bbbar production cross-section is proposed.Comment: 19 pages (RevTex) 6 figures, final version, to appear in Nucl. Instr.
  Methods 
Experimental Evidence of Fluctuation-Dissipation Theorem Violation in a Superspin Glass
We present the experimental observation of the fluctuation-dissipation theorem (FDT) violation in an assembly of interacting magnetic nanoparticles in the low temperature superspin glass phase. The magnetic noise is measured with a two-dimension electron gas Hall probe and compared to the out of phase ac susceptibility of the same ferrofluid. For "intermediate" aging times of the order of 1 h, the ratio of the effective temperature  to the bath temperature T grows from 1 to 6.5 when T is lowered from  to 0.3 , regardless of the noise frequency. These values are comparable to those measured in an atomic spin glass as well as those calculated for a Heisenberg spin glass
A year's work in the investigation of agricultural problems : work of the Agricultural Experiment Station during the year ending June 30, 1941
Cover title
meson production in = 200 GeV Au+Au and pp collisions at RHIC
We present the results for the measurement of  meson production in
 = 200 GeV Au+Au and pp collisions at the Relativistic Heavy Ion
Collider (RHIC). Using the event mixing technique, spectra and yields are
obtained from the  decay channel for different centrality
bins in Au+Au collisions and in pp collisions. We observe that the spectrum
shape in Au+Au collisions depends weakly on the centrality and the shape of the
spectrum in pp collisions is significantly different from that in Au+Au
collisions. In Au+Au collisions, the extracted yield of  meson is flat as
a function of rapidity; The  of , extracted from the fit function
to the spectra, shows a different behavior as a function of centrality than
that of ,  and Comment: Proceedings for the 7th International Conference on Strangeness in
  Quark Matte
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