Abstract
The magnitude of long-range correlations between observables in two separated rapidity windows, proposed as a signature of the string fusion and percolation phenomenon, is studied in the framework of non-Glauber Monte Carlo string-parton model, based on the picture of elementary collisions of color dipoles. The predictions, obtained with and without string fusion, demonstrate effects of color string fusion on the observables in Pb-Pb collisions at the LHC: decrease of n-n correlation coeffcient with centrality and negative pt-n correlations, if a suffciently effective centrality estimator is applied. In general case it is shown that the values of n-n and pt-n correlation coeffcients strongly depend on the method of collision centrality fixation. In contrast, the predictions obtained for pt-pt correlation have almost no effect of centrality determination method and the corresponding experimental data would produce the strong limitation on the transverse radius of a string.
Highlights
The study of long-range correlations between observables in two windows separated in rapidity was proposed [1] as a signature of the string fusion and percolation phenomenon, which is one of the collectivity effects [2] in ultrarelativistic heavy ion collisions
The correlation coefficients in Pb-Pb collisions at 2.76 TeV in two rapidity windows width of 0.8 as a function of the gap between them are shown in fig. 1
We can observe almost flat behaviour in mid-rapidity and decrease of correlations with further increase of the gap. Both pt-n and pt-pt correlations vanish at gap about 10 rapidity units, while n-n correlations are still present, and this behaviour is similar to pp case [6]
Summary
The study of long-range correlations between observables in two windows separated in rapidity was proposed [1] as a signature of the string fusion and percolation phenomenon, which is one of the collectivity effects [2] in ultrarelativistic heavy ion collisions.
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