2,087 research outputs found
On Participants Number Fluctuations for Given Centrality AA-Interactions in the Classical Glauber Approach
In the framework of the classical Glauber approach the exact analytical
expression for the variance of the number of participants (wounded nucleons)
for given centrality AA interactions is presented. It's shown, that in the case
of nucleus-nucleus collisions along with the optical approximation term the
additional "contact" term appears. The numerical calculations for PbPb
collisions at SPS energies show that at intermediate values of the impact
parameter the "optical" and "contact" terms contributions to the variance of
the participants number are of the same order and their sum is in a good
agreement with the results of independent MC simulations of this process. The
correlation between the numbers of participants in colliding nuclei is taken
into account. In particular it's demonstrated that in PbPb collisions at SPS
energies the variance of the total number of participants approximately three
times exceeds the Poisson one in the impact parameter region 10-12 Fm. The
fluctuations of the number of collisions are also discussed.Comment: a short version to be published in the Proceedings of Baldin ISHEPP
XVII
On description of the correlation between multiplicities in windows separated in azimuth and rapidity
The forward-backward (FB) multiplicity correlations in two windows separated
in rapidity and azimuth are analyzed in the framework of the model with
independent identical emitters (strings). Along with the short-range
contribution, originating from the correlation between particles produced by a
single string, the long-range contribution, originating from the fluctuation in
the number of strings, is taken into account. The connection of the FB
multiplicity correlation coefficient with the two-particle correlation function
and the di-hadron correlation analysis is traced. It's also shown that the
direct azimuthal flow leads to the forward ridge structure in the resulting
two-particle correlation function.Comment: 8 pages, reported at HEPQFT-2013(The XXI International Workshop High
Energy Physics and Quantum Field Theory, 23-30 June 2013, Saint Petersburg
Area, Russia
Space-time picture of the string fragmentation and the fusion of colour strings
It is shown that naive two stage scenario of the soft multiparticle
production in hadronic and nuclear collisions at high energy, when at first
stage the colour strings are formed and at the second stage these strings, or
some other (higher colour) strings formed due to fusion of primary strings, are
decaying, emitting observed particles, encounters some difficulties at the
attempt to analyse the space-time picture of the process. Simple analysis shows
the dominant is the process when the formation and the decay of a string occur
in parallel - a string breaks into two parts already at rather small length
(about 1-2 fm in its c.m. system), then the process repeats in the pieces and
so on. Nevertheless it is proved to be possible to agree the string fusion idea
with the space-time picture of a string decay. In the framework of the
Artru-Mennessier model of a string fragmentation the simple interpretation of
the homogeneity of the rapidity distribution for hadrons produced from the
decay of a single string at high energy is presented and the analytical
estimate for the density of this rapidity distribution is obtained.Comment: 6 pages, 5 figures, to be published in the Proceedings of Baldin
ISHEPP XI
Transverse Momentum Dependence of Cumulative Pions
In the framework of the recently proposed QCD based parton model for the
cumulative phenomena in the interactions with nuclei the dependence of the
cumulative pion production rates on the transverse momentum is studied. The
mean value of the transverse momentum is found to grow with x in the cumulative
region. The obtained results are in agreement with the available experimental
data.Comment: 9 pages, LaTeX, two PostScript figures, psfig.sty and epsf.st
The dependence of the number of pomerons on the impact parameter and the long-range rapidity correlations in pp collisions
The simple model which enables to take into account the effects of a colour
string fusion in pp interactions is suggested. The parameters of the model are
connected with the parameters of the pomeron trajectory and its couplings to
hadrons. On the base of the model the MC algorithm which enables to calculate
the long-range correlation functions between multiplicities and between the
average transverse momentum and the multiplicity in pp collisions is developed.Comment: 12 pages, 3 figures, reported at the Baldin ISHEPP XX
Cumulative Phenomena through the Quark-Parton Diagram Summation at Thresholds
A microscopic treatment of cumulative phenomena based on perturbative QCD
calculations of the corresponding quark diagrams near the threshold is
presented. To sum all diagrams like these the special technique based on the
recurrence relations was developed. The x-behaviour of the nuclear structure
function in the cumulative region x>1 was found to be roughly
exponential, governed by an effective coupling constant, which depends on the
QCD coupling constant and quark mass. Two mechanisms for cumulative particle
production, direct and spectator ones, were analysed. It was shown that due to
final state interactions the leading terms of the direct mechanism contribution
are cancelled and the spectator mechanism is the dominant one. It leads to a
smaller slope of the particle production rates compared to the slope of the
nuclear structure function in the cumulative region, in agreement with the
recent experimental data. The slope difference is due to additional multiple
interactions between nuclear and projectile partons which enter the spectator
mechanism for the cumulative production. The different versions of
hadronization mechanisms of the produced cumulative quarks into hadrons are
also discussed.Comment: 13 pages, LaTeX, one PostScript figur
Multiplicity and Pt Correlations in AA-interactions at High Energies
The theoretical description of the correlations between observables in two
separated rapidity intervals in relativistic nuclear collisions is presented.
It is shown, that the event-by-event pt-pt correlation defined as the
correlation between event mean values of transverse momenta of all particles
emitted in two different rapidity intervals does not decrease to zero with the
increase of the number of strings in contrast with two particle pt-pt
correlation - the correlation between the transverse momenta of single
particles produced in these two rapidity windows.
In the idealized case with the homogeneous string distribution in the
transverse plane in the framework of the cellular analog of string fusion model
(SFM) the asymptotic of pt-pt correlation coefficient is analytically
calculated and compared with the results of the Monte-Carlo (MC) calculations
fulfilled both in the framework of the original SFM and in the framework of its
cellular analog, which enables to control the MC algorithms.
In the case with the realistic nucleon distribution density of colliding
nuclei the results of the MC calculations of the pt-pt correlation function for
minimum bias nuclear collisions at SPS, RHIC and LHC energies are presented and
analysed.Comment: 7 pages, LaTeX, 3 figures in PostScript, to be published in the
XVIIIth QFTHEP Workshop proceeding
Cellular Approach to Long-Range and Multiplicity Correlations in the String Fusion Model
The long-range and multiplicity() correlations in high-energy
nuclear collisions are studied in the framework of a simple cellular analog of
the string fusion model.
Two cases with local and global string fusion is considered. The --
and -- correlation functions and correlation coefficients are calculated
analytically in some asymptotic cases using suggested Gauss approximation.
It's shown that at large string density the -- and --
correlation coefficients are connected and the scaling takes place. The
behavior of the correlations at small string density is also studied.
The asymptotic results are compared with results of the numerical
calculations in the framework of proposed cellular approach.Comment: 21 pages, LaTeX, 7 figures in PostScript, Russian version will appear
in the journal "Vestnik SPbU
Deuteron Disintegration in Quark-Parton Model
The deuteron disintegration process with the emission of fast proton in the
vicinity of the kinematical boundary of the reaction, when Feynman variable
, is studied. The consideration is fulfilled in the framework of the
quark-parton model of cumulative phenomena based on perturbative QCD
calculations of the corresponding quark diagrams near the thresholds, at which
some quarks ("donors") in the nuclear flucton transfer all their longitudinal
momenta to the distinguished active quarks and become soft. The presence of the
multi-quark -configuration in a deuteron is essentially exploited in the
consideration. The different versions of hadronization mechanisms of the
produced cumulative quarks into cumulative particles are analyzed. It is shown
that in the case of the production of cumulative protons from deuteron the
hadronization through the coalescence of three cumulative quarks is favorable
and leads to the cross section threshold behavior whereas the usual
hadronization through one cumulative quark fragmentation into proton the same
as the calculations predicts for the deuteron structure function at
in DIS processes. The results of the calculations are compared with
the available experimental data.Comment: 8 pages, LaTe
Simple Cellular Model of Long-Range Multiplicity and Correlations in High-Energy Nuclear Collisions
A simple cellular model for the description of the long-range multiplicity
and correlations in high-energy nuclear collisions originating from the
string fusion model is proposed. Three versions of the model: without fusion,
with local and with global string fusion are formulated.
A Gauss approximation which enables explicit analytical calculations of the
correlation functions in some asymptotic cases in the framework of the model is
developed. The assumptions of the model and the validity of a Gauss
approximation are checked up in the simplest (no fusion) case when the explicit
solution of the model can be found.
The role of a size of cells is analysed. The modification of the results in
the case of non-Poissonian distributions is also discussed.Comment: 15 pages, LaTeX, 5 figures in PostScript, Russian version will appear
in the journal "Vestnik SPbU
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