Features of particle multiplicities and strangeness production in central heavy ion collisions between 1.7A-GeV/c and 158A-GeV/c
Feb, 2000
14 pages
Published in:
- Phys.Rev.C 64 (2001) 024901
e-Print:
- hep-ph/0002267 [hep-ph]
Report number:
- BI-TP-00-02,
- DFF-349-02-2000
Citations per year
Abstract:
A systematic study is performed of fully integrated particle multiplicities in central Au-Au and Pb-Pb collisions at beam momenta of 1.7A GeV, 11.6A GeV (Au-Au) and 158 GeV (Pb-Pb) by using a statistical-thermal model. The close similarity of the colliding systems makes it possible to study heavy ion collisions under definite initial conditions over a range of centre-of-mass energies covering more than one order of magnitude. In order to further study the behaviour of strangeness production, an updated study of Si-Au collisions at 14.6A GeV is also presented. The data analysis has been performed with two completely independent numerical algorithms giving closely consistent results. We conclude that a thermal model description of particle multiplicities, with additional strangeness suppression, is possible for each energy. The degree of chemical equilibrium of strange particles and the relative production of strange quarks with respect to u and d quarks are higher than in e+e-, pp and ppbar collisions at comparable and even at lower energies. The behaviour of strangeness production as a function of centre-of-mass energy and colliding system is presented and discussed. The average energy per hadron in the comoving frame is close to 1 GeV per hadron despite the fact that the energy increases more than 10-fold.Note:
- 16 pages, 4 .eps figures; revised version with corrected and updated results, references added Report-no: BI-TP 00/02, DFF 349/02/2000
- scattering: heavy ion
- lead
- gold
- silicon
- central region
- multiple production
- model: statistical
- thermodynamics
- multiplicity: ratio
- strange particle: hadroproduction
References(34)
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