@article{oai:soar-ir.repo.nii.ac.jp:00012014,
 author = {IDE,  M and BIYAJIMA,  M and MIZOGUCHI,  T},
 journal = {信州大学理学部紀要},
 month = {Mar},
 note = {Interesting data on dNch/dη in Au-Au collisions (η=-In tan(θ/2)) with the centrality cuts have been reported by BRAHMS Collaboration. Using the total multiplicity Nch=∫(dNch/dη)dη, we find that there are scaling phenomena among (Nch){ 1dNch/dη=dn/dη with different centrality cuts at √SNN=130 GeV and 200 GeV, respectively. To explain these scaling behaviors of dnl'drj, we consider the stochastic approach named the Ornstein-Uhlenbeck process with two sources. The following Fokker-Planck equation is adopted for the present analyses, ∂P(x,t)/∂t = γ[∂/∂x x+1/2 σ2/γ ∂2/∂x2]P(x,t) where x means the rapidity (y) or pseudo-rapidity (η). t, γ and σ2 and the evolution parameter, the frictional coefficient and the variance, respectively. Introducing a variable of zr=η/ηrms (ηrms=√<η2>) we explain the dn/dzr distributions in the present approach. Moreover, to explain the rapidity (y) distributions from η distributions at 200 GeV, we have derived the formula as dn/dy=J{ 1dn/dη' where J{ 1=√M(1+sinh2y)/√1+Msinh2y with M=1+(m/pt)2. Their data of pion and all hadrons are fairly well explained by the O-U process. To compare our approach with another one, a phenomenological formula by Eskola et al. is also used in calculations of dn/dη., Article, 信州大学理学部紀要 38: 1-12(2004)},
 pages = {1--12},
 title = {Analyses of dNch/dη and dNch/dy distributions of BRAHMS Collaboration by means of the Ornstein-Uhlenbeck process},
 volume = {38},
 year = {2004}
}