Energy dependence of the differences between the quark and gluon jet fragmentation

Three jet events arising from decays of the Z beson, collected by the DELPHI detector, were used to measure differences in quark and gluon fragmentation. Gluon jets were anti-tagged by identifying b quark jets. Unbiased quark jets came from events with two jets plus one photon. Quark and gluon jet properties in different energy ranges were compared for the first time within the same detector. Quark and gluon jets of nearly the same energy in symmetric three jet event topologies were also compared. Using three independent methods, the average value of the ratio of the mean charged multiplicities of gluon and quark jets is [ r ] = 1.241 +/- 0.015 (stat.) +/- 0.025 (syst.). Gluon jets are broader and produce fragments with a softer energy spectrum than quark jets of equivalent energy. The string effect has been observed in fully symmetric three jet events. The measured ratio R(gamma) of the charged particle flow in the <q (q) over bar> inter-jet region of the <q (q) over bar g> and < q (q) over bar gamma> samples agrees with the perturbative QCD expectation. The dependence of the mean charged multiplicity on the hadronic center-of-mass energy was analysed in photon plus n-jet events. The value for alpha(s)(M(z)) determined from these data using a QCD prediction with corrections at leading and next-to-leading order is alpha(s)(M(z)) = 0.116 +/- 0.003 (stat.) +/- 0.009 (syst.).