Hi, Selemon, I am not sure that your physics statement for the high-pt suppression in AuAu is in sync with our current understandings. "For AuAu collisions, we do see a suppression at (pseudo)-rapidity ~ 3 which seems to favor the CGC scenario." I think our high-pt suppression results at forward rapidity in AuAu is understood mainly as final state effects (energy loss, hydro...) rather than initial state effects. In AuAu collision, coherent interactions in the initial state (Saturation/CGC) is claimed to be "realized" mainly as "small" hadron multiplicities. JH > -----Original Message----- > From: > brahms-dev-l-bounces+jhlee=rcf.rhic.bnl.gov@lists.bnl.gov > [mailto:brahms-dev-l-bounces+jhlee=rcf.rhic.bnl.gov@lists.bnl. > gov] On Behalf Of Bekele, Selemon > Sent: Tuesday, August 16, 2005 5:43 PM > To: brahms-dev-l@lists.bnl.gov > Subject: [Brahms-dev-l] PANIC05 abstract > > > > Hi All, > > please find the abstract I intend to submit to PANIC05. I > appreciate suggestions and comments. Thanks! > > -------------------------------------------------- > High Pt suppression in CuCu Collsions at 200 GeV/NN. > > > Collisions between hadronic systems at relativistic energies provide > a window on the small-x gluon distributions of fast moving > nuclei. It has been > predicted that gluon saturation effects will manifest > themselves as a suppression in the transverse momentum > distribution at a scale which is connected with the rapidity > of the measured particles. Saturation effects are most > evident at large > (pseudo)-rapidity, i.e at small angles relative to the beam > direction. BRAHMS has already studied the rapidity dependence > of the nuclear modification factor as a > function of rapidity in dAu and AuAu collisions. While the > absence of high Pt suppression around midrapidity rules out > initial state effects, a marked high Pt suppression with > increasing pseudorapidity may be related to the initial > conditions of the colliding > deutron and gold nuclei, in particular to the possible > existence of the color glass > condensate(CGC) which is a theory that describes the ground > state of fast moving nuclei prior to collision. For AuAu > collisions, we do see a suppression at (pseudo)-rapidity ~ 3 > which seems to favor the CGC scenario. The dependence of the > nuclear modification factors > on the number of participants also provides additional > information on the mechanism > underlying the observed suppression. We present results for > the nuclear modification > factor Rcp at forward rapidities for CuCu collsions at 200 > GeV/NN. The results will > be compared to previous results in AuAu and dAu collisions at > the same enrgy. > ------------------------------------------- > > Selemon, > > _______________________________________________ > Brahms-dev-l mailing list > Brahms-dev-l@lists.bnl.gov > http://lists.bnl.gov/mailman/listinfo/brahms-dev-l > _______________________________________________ Brahms-dev-l mailing list Brahms-dev-l@lists.bnl.gov http://lists.bnl.gov/mailman/listinfo/brahms-dev-lReceived on Tue Aug 16 22:42:11 2005
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