1,379 research outputs found
Observation of Scaled Correlation Signals which increase wirh Centrality of Au Au collisions at = 200 GeV
We show the preliminary charged-particle pair correlation analyses presented
in a poster session at the 2006 International Quark Matter Conference in
Shanghai China. The correlation analysis space of (azimuth) and
(pseudo-rapidity) are considered as a function of centrality for
minimum bias Au + Au collisions in the mid-transverse momentum range in the
STAR detector. The analyses involve unlike-sign charge pairs and like-sign
charge pairs, which are transformed into charge-dependent (CD) signals and
charge-independent (CI) signals. We use a multiplicity scale to compare the
different centralities. We find the signals increase with increasing
centrality. A model featuring dense gluonic hot spots as first proposed by van
Hove predicts that the observables under investigation would have sensitivity
to such a substructure should it occur. A blast wave model including multiple
hot spots motivates the selection of transverse momenta in the range 0.8 GeV/c4.0 GeV/c.Comment: 12 pages, 7 figures, Poster at 2006 International Quark Matter
Conference in Shanghai Chin
Can Recent Charge Fluctuations Be a Reliable signal for a QGP at RHIC?
The recent papers of Jeon and Koch [1] and Asakawa, Heinz, and Muller [2]
argue that the event by event fluctuations of the ratio of the positively
charged and negatively charged pions provide a distinct signal for a QGP at
RHIC/LHC due to differences in those from the QGP phase and the Hadron Gas
Phase.In this paper we point out that aside from the questionability of the
many assumptions in the treatment used,even following their approach there are
other effects not considered, e.g. color charge fluctuations, which could
significantly or even completely wash out the proposed signal.Therefore lack of
observation of these charge fluctuation signals cannot lead one to conclude
that a QGP is not formed at RHIC. A general discussion of experimental
requirements for observation of such signals(if they exist),annd how to
interpret them is included.Comment: 9 pages and 2 Fig
The Centrality Dependence of the Parton Bubble Model for high energy heavy ion collisions and fireball surface substructure at RHIC
In an earlier paper we developed a QCD inspired theoretical parton bubble
model (PBM) for RHIC/LHC. The PBM quantitatively agreed with the strong charged
particle pair correlations observed by the STAR collaboration at RHIC in the
highest energy Au + Au central collisions, and also agreed with the Hanbury
Brown and Twiss (HBT) observed small final state source size approximately 2f
radii in the transverse momentum range above 0.8 GeV/c. The model assumed a
substructure of a ring of localized adjoining 2f radius bubbles(gluonic hot
spots) perpendicular to the collider beam direction, centered on the beam, at
mid-rapidity and located on the expanding fireball surface of the Au + Au
collisions. In this paper we extend the model (PBME) to include the changing
development of bubbles with centrality from the most central region where
bubbles are very important to the most peripheral where the bubbles are gone.
Energy density is found to be related to bubble formation and as centrality
decreases the maximum energy density and bubbles shift from symmetry around the
beam axis to the reaction plane region causing a strong correlation of bubble
formation with elliptic flow. We obtained reasonably quantitative agreement
(within a few percent of the total correlations) with a new precision RHIC
experiment which extended the centrality region investigated to the range 0-80%
(most central to most peripheral). The characteristics and behavior of the
bubbles imply they represent a significant substructure formed on the surface
of the fireball at kinetic freezeoutComment: ACCEPTED for publication in Phys. Rev. C. minor referee changes.20
pages, 12 figures, 3 table
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