Add to ORKGHere, we discuss QCD predictions on multiplicities in parton and dipole approaches. The most general treatment is based on the notion of the generating functions. The generating function G is defined as $G(u,y)=\sum_nu^nP_n(y)$, where $P_n$ is the probability of the n-particle production at energy denoted by y, u is an auxiliary variable. The mean multiplicity and higher moments of the multiplicity distribution $P_n$ are given by the u-derivatives of G at u=1
Multiparticle production is described in the language of quarks and gluons. In the experiment the re...
Power-suppressed corrections to parton evolution may affect the theoretical accuracy of current dete...
In 1979, Giovannini [1] formulated multiparticle production as a manifestation of four QCD processes...
The QCD evolution equations in Modified Leading Log Approximation for the factorial moments of the m...
I review theoretical and experimental challenges in studies of the ratio of multiplicities in quark ...
We discuss the problem of incorporating recoil effects into the probabilistic QCD evolution scheme b...
Analytic predictions for the energy dependence of the mean multiplicities in gluon and quark jets ar...
The complete QCD evolution equation for factorial moments in quark and gluon jets is numerically sol...
Multiplicity fluctuations are studied both globaly (in terms of high-order moments) and locally (in ...
Recently exact numerical results from the evolution equation for parton multiplicities in QCD jets h...
Using some knowledge of multiplicity disributions for high energy reactions, it is possible to propo...
The idea that the hard processes are dominate at the very high multiplicity (VHM) final states creat...
We discuss the phenomenological and theoretical implications of recent progresses in the evaluation ...
A large variety of jet properties can be described perturbatively by evolving the parton cascade dow...
The perturbative QCD approach to multiparticle production assuming Local Parton Hadron Duality (LPHD...
Multiparticle production is described in the language of quarks and gluons. In the experiment the re...
Power-suppressed corrections to parton evolution may affect the theoretical accuracy of current dete...
In 1979, Giovannini [1] formulated multiparticle production as a manifestation of four QCD processes...
The QCD evolution equations in Modified Leading Log Approximation for the factorial moments of the m...
I review theoretical and experimental challenges in studies of the ratio of multiplicities in quark ...
We discuss the problem of incorporating recoil effects into the probabilistic QCD evolution scheme b...
Analytic predictions for the energy dependence of the mean multiplicities in gluon and quark jets ar...
The complete QCD evolution equation for factorial moments in quark and gluon jets is numerically sol...
Multiplicity fluctuations are studied both globaly (in terms of high-order moments) and locally (in ...
Recently exact numerical results from the evolution equation for parton multiplicities in QCD jets h...
Using some knowledge of multiplicity disributions for high energy reactions, it is possible to propo...
The idea that the hard processes are dominate at the very high multiplicity (VHM) final states creat...
We discuss the phenomenological and theoretical implications of recent progresses in the evaluation ...
A large variety of jet properties can be described perturbatively by evolving the parton cascade dow...
The perturbative QCD approach to multiparticle production assuming Local Parton Hadron Duality (LPHD...
Multiparticle production is described in the language of quarks and gluons. In the experiment the re...
Power-suppressed corrections to parton evolution may affect the theoretical accuracy of current dete...
In 1979, Giovannini [1] formulated multiparticle production as a manifestation of four QCD processes...