CERN Accelerating science

The associated yield per trigger as a function of $\Delta\eta$ and $\Delta\varphi$ as measured for \TPC--\FMDab (left), \TPC--\FMDc (central), and \FMDab--\FMDc (right) correlations in the 0--5\% (top) and 60--100\% (bottom) \pPb collisions.

Projection of the correlation function of \TPC--\FMDab (left), \TPC--\FMDc (central), and \FMDab--\FMDc (right) correlations in 0--5\% \pPb collisions with the template fit using Eq.~\eqref{eqtemplate}. The open circle blue marker represents the scaled peripheral distribution plus the Flow baseline, $G$. The red and green dashed lines represent the second- and third-order components plus the baseline, respectively.

$p_{\mathrm T}$-integrated $v_{2}\{2\}$ as a function of $\eta$ in various centrality classes using the template fitting method. Boxes show the total systematic uncertainties.

\vtwo as a function of charged-particle pseudorapidity density for five different pseudorapidity regions.

The \Veta in central \pPb collisions compared with \Veta in peripheral \PbPb collisions with a compatible mean charged-particle multiplicity in Pb-going direction. The \vtwo \PbPb results were obtained using the Q-cumulant method~\cite{ALICE:2016tlx}.

Pseudorapidity dependence of \pt integrated \vtwo. Comparison of the measured data (black circles) with a calculation by the hydrodynamical model (blue band)~\cite{Zhao:2022ayk} for the 0--5\% (top left), 5--10\% (top right), 10--20\% (bottom left), and 20--40\% (bottom right) centrality classes.

Pseudorapidity dependence of \pt integrated \vtwo. Comparison of the measured data (black circles) with a calculation by AMPT with the string-melting configuration (blue band) for 0--5\% (top left), 5--10\% (top right), 10--20\% (bottom left), and 20--40\% (bottom right) centrality class.

$p_{\mathrm T}$-integrated $v_{2}\{2\}$ as a function of $\eta$ in various centrality classes using the improved-template-fit method, and the peripheral subtraction method.

\vtwo as a function of charged particle density for five different pseudorapidity regions with the peripheral subtraction (left) and the improved template method (right).

\vtwo as a function of charged particle density for five different pseudorapidity regions with the peripheral subtraction (left) and the improved template method (right).

Pseudorapidity dependence of \pt-integrated \vtwo as measured in peripheral Pb--Pb collisions and central p--Pb collisions. The Pb–Pb results were obtained with the Q-cumulant method~\cite{ALICE:2016tlx}. The p--Pb results were obtained with the improved-template-fit and peripheral subtraction methods.

Pseudorapidity dependence of \pt-integrated \vtwo as measured in different p--Pb centrality classes and as obtained from the AMPT calculation with the string melting configuration. The \vtwo were extracted using the improved-template-fit method and the peripheral subtraction.