Transverse and Longitudinal Bose Einstein Correlations in hadronic Z0 Decays
Abstract
Bose-Einstein correlations in pairs of identical charged pions produced in a sample of 4.3 million Z0 hadronic decays are studied as a function of the three components of the momentum difference, transverse ("out" and "side") and longitudinal with respect to the thrust direction of the event. A significant difference between the transverse, rtside, and longitudinal, rl, dimensions is observed, indicating that the emitting source of identical pions, as observed in the Longitudinally CoMoving System, has an elongated shape. This is observed with a variety of selection techniques. Specifically, the values of the parameters obtained by fitting the extended Goldhaber parametrisation to the correlation function C'= CDATA/CMC for two-jet events, selected with the Durham algorithm and resolution parameter ycut=0.04, are rtout=(0.647+-0.011(stat)+0.022-0.124(syst)) fm, rtside=(0.809+-0.009(stat)+0.019-0.032(syst)) fm, rl=(0.989+-0.011(stat)+0.030-0.015(syst)) fm and rl/rtside=1.222+-0.027(stat)+0.075-0.012(syst). The results are discussed in the context of a recent model of Bose-Einstein correlations based on string fragmentation.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.