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CGC/saturation approach: re-visiting the problem of odd harmonics in angular correlations

arXiv:1807.02783 · doi:10.1140/epjc/s10052-018-6257-3

Abstract

In this paper we demonstrate that the selection of events with different multiplicities of produced particles, leads to the violation of the azimuthal angular symmetry, $ϕ\to π- ϕ$. We find for LHC and lower energies, that this violation can be so large for the events with multiplicities $n \geq 2 \bar{n}$, where $\bar{n}$ is the mean multiplicity, that it leads to almostno suppression of $v_n$, with odd $n$. However, this can only occur if the typical size of the dipole in DIS with a nuclear target is small, or $Q^2 \,>\,Q^2_s\Lb A, Y_{\rm min},b\Rb$, where $Q_s$ is the saturation momentum of the nucleus at $Y = Y_{\rm min}$. In the case of large sizes of dipoles, when $Q^2 \,<\,Q^2_s\Lb A, Y_{\rm min},b\Rb$, we show that $v_n =0$ for odd $n$. Hadron-nucleus scattering is discussed.

22 pp. 21 figures in eps files