Observed $2 \Delta NLL$ of a 2D scan for $c^{-}_{\varphi Q}$ and $c_{\varphi t}$ with the other WCs profiled.

Observed $2 \Delta NLL$ of a 2D scan for $c_{tG}$ and $c_{t\varphi}$ with the other WCs profiled.

Observed $2 \Delta NLL$ of a 2D scan for $c^{1}_{Qt}$ and $c^{8}_{Qt}$ with the other WCs profiled.

Observed $2 \Delta NLL$ of a 2D scan for $c^{1}_{QQ}$ and $c^{8}_{Qt}$ with the other WCs profiled.

Observed $2 \Delta NLL$ of a 2D scan for $c^{1}_{Qt}$ and $c^{1}_{tt}$ with the other WCs profiled.

Observed $2 \Delta NLL$ of a 2D scan for $c^{1}_{QQ}$ and $c^{1}_{Qt}$ with the other WCs profiled.

The average tetrajet invariant mass distributions in data, along with the fitted background estimates for 0.16 < $\alpha$ < 0.18.

The average tetrajet invariant mass distributions in data, along with the fitted background estimates for 0.18 < $\alpha$ < 0.20.

The average tetrajet invariant mass distributions in data, along with the fitted background estimates for 0.20 < $\alpha$ < 0.22.

The average tetrajet invariant mass distributions in data, along with the fitted background estimates for 0.22 < $\alpha$ < 0.24.

The average tetrajet invariant mass distributions in data, along with the fitted background estimates for 0.24 < $\alpha$ < 0.26.

The average tetrajet invariant mass distributions in data, along with the fitted background estimates for 0.26 < $\alpha$ < 0.28.

The average tetrajet invariant mass distributions in data, along with the fitted background estimates for 0.28 < $\alpha$ < 0.30.

The average tetrajet invariant mass distributions in data, along with the fitted background estimates for 0.30 < $\alpha$ < 0.32.

The average tetrajet invariant mass distributions in data, along with the fitted background estimates for 0.32 < $\alpha$ < 0.34.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.10 < $\alpha$ < 0.12.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.12 < $\alpha$ < 0.14.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.14 < $\alpha$ < 0.16.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.16 < $\alpha$ < 0.18.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.18 < $\alpha$ < 0.20.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.20 < $\alpha$ < 0.22.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.22 < $\alpha$ < 0.24.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.24 < $\alpha$ < 0.26.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.26 < $\alpha$ < 0.28.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.28 < $\alpha$ < 0.30.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.30 < $\alpha$ < 0.32.

The average dijet invariant mass distributions in data, along with the fitted background estimates for 0.32 < $\alpha$ < 0.34.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.10 < $\alpha$ < 0.12.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.12 < $\alpha$ < 0.14.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.14 < $\alpha$ < 0.16.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.16 < $\alpha$ < 0.18.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.18 < $\alpha$ < 0.20.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.20 < $\alpha$ < 0.22.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.22 < $\alpha$ < 0.24.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.24 < $\alpha$ < 0.26.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.26 < $\alpha$ < 0.28.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.28 < $\alpha$ < 0.30.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.30 < $\alpha$ < 0.32.

The expected and observed limits on $m_{4j}$ for signal templates using a 4-parameter fit function for 0.32 < $\alpha$ < 0.34.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.10 < $\alpha$ < 0.12.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.12 < $\alpha$ < 0.14.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.14 < $\alpha$ < 0.16.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.16 < $\alpha$ < 0.18.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.18 < $\alpha$ < 0.20.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.20 < $\alpha$ < 0.22.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.22 < $\alpha$ < 0.24.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.24 < $\alpha$ < 0.26.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.26 < $\alpha$ < 0.28.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.28 < $\alpha$ < 0.30.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.30 < $\alpha$ < 0.32.

The expected and observed limits on $m_{\langle 2j \rangle}$ for signal templates using a 4-parameter fit function for 0.32 < $\alpha$ < 0.34.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.10 < $\alpha$ < 0.12.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.12 < $\alpha$ < 0.14.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.14 < $\alpha$ < 0.16.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.16 < $\alpha$ < 0.18.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.18 < $\alpha$ < 0.20.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.20 < $\alpha$ < 0.22.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.22 < $\alpha$ < 0.24.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.24 < $\alpha$ < 0.26.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.26 < $\alpha$ < 0.28.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.28 < $\alpha$ < 0.30.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.30 < $\alpha$ < 0.32.

The expected and observed limits on $m_{4j}$ for Gaussian signal templates using a 4-parameter fit function for 0.32 < $\alpha$ < 0.34.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.10 < $\alpha$ < 0.12.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.12 < $\alpha$ < 0.14.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.14 < $\alpha$ < 0.16.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.16 < $\alpha$ < 0.18.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.18 < $\alpha$ < 0.20.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.20 < $\alpha$ < 0.22.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.22 < $\alpha$ < 0.24.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.24 < $\alpha$ < 0.26.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.26 < $\alpha$ < 0.28.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.28 < $\alpha$ < 0.30.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.30 < $\alpha$ < 0.32.

The expected and observed limits on $m_{\langle 2j \rangle}$ for Gaussian signal templates using a 4-parameter fit function for 0.32 < $\alpha$ < 0.34.

The product of the analysis acceptance and selection efficiency for all analysis selection criteria is shown as a function of $m_Y$ and $m_{X}/m_{Y}$.

The cross-section of the signal samples is shown as a function of $m_Y$ and $m_{X}/m_{Y}$.

q2-large/q2-small, R=0.4

out-of-plane/in-plane, R=0.2

out-of-plane/in-plane, R=0.4

$p_{T, jet}$ resolution for $20 < p_{T, jet}^{GEN} < 40$ GeV/c $R=0.4$ full jets. Jets are measured from all angles relative to the event plane in the 20-50% most central events.

Response matrix showing correlation between GEN and RECO $p_{T, jet}$ for matched GEN-level to RECO-level jets. Jets are measured from all angles relative to the event plane in the 20-50% most central events.

Yield measurement of near-side associated charged hadrons for 15-20 GeV/c in-plane jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 15-20 GeV/c mid-plane jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 15-20 GeV/c out-of-plane jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 15-20 GeV/c JEWEL (with recoils) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 15-20 GeV/c JEWEL (no recoils) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 15-20 GeV/c in-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 15-20 GeV/c mid-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 15-20 GeV/c out-of-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 15-20 GeV/c JEWEL (with recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 15-20 GeV/c JEWEL (no recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 15-20 GeV/c in-plane jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 15-20 GeV/c mid-plane jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 15-20 GeV/c out-of-plane jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 15-20 GeV/c JEWEL (with recoils) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 15-20 GeV/c JEWEL (no recoils) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 15-20 GeV/c in-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 15-20 GeV/c mid-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 15-20 GeV/c out-of-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 15-20 GeV/c JEWEL (with recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 15-20 GeV/c JEWEL (no recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 20-40 GeV/c in-plane jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 20-40 GeV/c mid-plane jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 20-40 GeV/c out-of-plane jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 20-40 GeV/c JEWEL (with recoils) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 20-40 GeV/c JEWEL (no recoils) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 20-40 GeV/c in-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 20-40 GeV/c mid-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 20-40 GeV/c out-of-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 20-40 GeV/c JEWEL (with recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of near-side associated charged hadrons for 20-40 GeV/c JEWEL (no recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 20-40 GeV/c in-plane jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 20-40 GeV/c mid-plane jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 20-40 GeV/c out-of-plane jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 20-40 GeV/c JEWEL (with recoils) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 20-40 GeV/c JEWEL (no recoils) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 20-40 GeV/c in-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 20-40 GeV/c mid-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 20-40 GeV/c out-of-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 20-40 GeV/c JEWEL (with recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Yield measurement of away-side associated charged hadrons for 20-40 GeV/c JEWEL (no recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 15-20 GeV/c in-plane jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 15-20 GeV/c mid-plane jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 15-20 GeV/c out-of-plane jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 15-20 GeV/c JEWEL (with recoils) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 15-20 GeV/c JEWEL (no recoils) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 15-20 GeV/c in-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 15-20 GeV/c mid-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 15-20 GeV/c out-of-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 15-20 GeV/c JEWEL (with recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 15-20 GeV/c JEWEL (no recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 15-20 GeV/c in-plane jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 15-20 GeV/c mid-plane jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 15-20 GeV/c out-of-plane jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 15-20 GeV/c JEWEL (with recoils) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 15-20 GeV/c JEWEL (no recoils) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 15-20 GeV/c in-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 15-20 GeV/c mid-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 15-20 GeV/c out-of-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 15-20 GeV/c JEWEL (with recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 15-20 GeV/c JEWEL (no recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 20-40 GeV/c in-plane jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 20-40 GeV/c mid-plane jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 20-40 GeV/c out-of-plane jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 20-40 GeV/c JEWEL (with recoils) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 20-40 GeV/c JEWEL (no recoils) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 20-40 GeV/c in-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 20-40 GeV/c mid-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 20-40 GeV/c out-of-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 20-40 GeV/c JEWEL (with recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of near-side associated charged hadrons for 20-40 GeV/c JEWEL (no recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 20-40 GeV/c in-plane jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 20-40 GeV/c mid-plane jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 20-40 GeV/c out-of-plane jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 20-40 GeV/c JEWEL (with recoils) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 20-40 GeV/c JEWEL (no recoils) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 20-40 GeV/c in-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 20-40 GeV/c mid-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 20-40 GeV/c out-of-plane ($p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 20-40 GeV/c JEWEL (with recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

Width measurement of away-side associated charged hadrons for 20-40 GeV/c JEWEL (no recoils, $p_{T, assoc}$ inclusive) jets from 20-50% centrality collisions.

mid-plane/in-plane ratio of near-side yields associated charged hadrons for 15-20 GeV/c jets from 20-50% centrality collisions.

out-of-plane/in-plane ratio of near-side yields associated charged hadrons for 15-20 GeV/c jets from 20-50% centrality collisions.

mid-plane/in-plane ($p_{T, assoc}$ inclusive) ratio of near-side yields associated charged hadrons for 15-20 GeV/c jets from 20-50% centrality collisions.

out-of-plane/in-plane ($p_{T, assoc}$ inclusive) ratio of near-side yields associated charged hadrons for 15-20 GeV/c jets from 20-50% centrality collisions.

mid-plane/in-plane ratio of away-side yields associated charged hadrons for 15-20 GeV/c jets from 20-50% centrality collisions.

out-of-plane/in-plane ratio of away-side yields associated charged hadrons for 15-20 GeV/c jets from 20-50% centrality collisions.

mid-plane/in-plane ($p_{T, assoc}$ inclusive) ratio of away-side yields associated charged hadrons for 15-20 GeV/c jets from 20-50% centrality collisions.

out-of-plane/in-plane ($p_{T, assoc}$ inclusive) ratio of away-side yields associated charged hadrons for 15-20 GeV/c jets from 20-50% centrality collisions.

mid-plane/in-plane ratio of near-side yields associated charged hadrons for 20-40 GeV/c jets from 20-50% centrality collisions.

out-of-plane/in-plane ratio of near-side yields associated charged hadrons for 20-40 GeV/c jets from 20-50% centrality collisions.

mid-plane/in-plane ($p_{T, assoc}$ inclusive) ratio of near-side yields associated charged hadrons for 20-40 GeV/c jets from 20-50% centrality collisions.

out-of-plane/in-plane ($p_{T, assoc}$ inclusive) ratio of near-side yields associated charged hadrons for 20-40 GeV/c jets from 20-50% centrality collisions.

mid-plane/in-plane ratio of away-side yields associated charged hadrons for 20-40 GeV/c jets from 20-50% centrality collisions.

out-of-plane/in-plane ratio of away-side yields associated charged hadrons for 20-40 GeV/c jets from 20-50% centrality collisions.

mid-plane/in-plane ($p_{T, assoc}$ inclusive) ratio of away-side yields associated charged hadrons for 20-40 GeV/c jets from 20-50% centrality collisions.

out-of-plane/in-plane ($p_{T, assoc}$ inclusive) ratio of away-side yields associated charged hadrons for 20-40 GeV/c jets from 20-50% centrality collisions.

$\Delta\phi$ projection of balance function in low $p_{T}$ in 0-10% centrality

$\Delta\phi$ projection of balance function in low $p_{T}$ in 30-40% centrality

1D $\Delta\eta$ projection of balance function in low $p_{T}$ in 70-80% centrality

$\Delta\eta$ projection of balance function in low $p_{T}$ in 0-40 $N_{trk}$

$\Delta\eta$ projection of balance function in low $p_{T}$ in 120-150 $N_{trk}$

$\Delta\eta$ projection of balance function in low $p_{T}$ in 270-300 $N_{trk}$

$\Delta\phi$ projection of balance function in low $p_{T}$ in 0-40 $N_{trk}$

$\Delta\phi$ projection of balance function in low $p_{T}$ in 120-150 $N_{trk}$

$\Delta\phi$ projection of balance function in low $p_{T}$ in 270-300 $N_{trk}$

The width of balance function in $<|\Delta\eta|>$ in low $p_{T}$ for PbPb collisions

Balance function width in low $p_{T}$ PbPb relative $<|\Delta\eta|>/<|\Delta\eta|>_{N_{ch}<65}$

The width of balance function in $<|\Delta\eta|>$ in low $p_{T}$ for pPb collisions

Balance function width in low $p_{T}$ in pPb relative $<|\Delta\eta|>/<|\Delta\eta|>_{N_{ch}<24}$

The width of the balance function in $<|\Delta\phi|>$ in low $p_{T}$ for PbPb collisions

Balance function width in low $p_{T}$ in PbPb for relative $<|\Delta\phi|>/<|\Delta\phi|>_{N_{ch}<65}$

The width of the balance function in $<|\Delta\phi|>$ in low $p_{T}$ for pPb collisions

Balance function width in low $p_{T}$ in pPb for relative $|\Delta\phi|/<|\Delta\phi|>_{N_{ch}<24}$

Balance function projection as a function of $\Delta\eta$ in intermediate $p_{T}$ in PbPb for 0-10% centrality

Balance function projection as a function of $\Delta\eta$ in intermediate $p_{T}$ in PbPb for 30-40% centrality

Balance function projection as a function of $\Delta\eta$ in intermediate $p_{T}$ in PbPb for 70-80% centrality

Balance function projection as a function of $\Delta\phi$ in intermediate $p_{T}$ in PbPb for 0-10% centrality

Balance function projection as a function of $\Delta\phi$ in intermediate $p_{T}$ in PbPb for 30-40% centrality

Balance function projection as a function of $\Delta\phi$ in intermediate $p_{T}$ in PbPb for 70-80% centrality

Balance function projection as a function of $\Delta\eta$ in intermediate $p_{T}$ in pPb for 0-40 $N_{trk}$

Balance function projection as a function of $\Delta\eta$ in intermediate $p_{T}$ in pPb for 120-150 $N_{trk}$

Balance function projection as a function of $\Delta\eta$ in intermediate $p_{T}$ in pPb for 270-300 $N_{trk}$

Balance function projection as a function of $\Delta\phi$ in intermediate $p_{T}$ in pPb for $N_{trk}$ 0-40

Balance function projection as a function of $\Delta\phi$ in intermediate $p_{T}$ in pPb for $N_{trk}$ 120-150

Balance function projection as a function of $\Delta\phi$ in intermediate $p_{T}$ in pPb for $N_{trk}$ 270-300

Balance function projection as a function of $\Delta\eta$ in high $p_{T}$ in PbPb for 0-10% centrality

Balance function projection as a function of $\Delta\eta$ in high $p_{T}$ in PbPb for 30-40% centrality

Balance function projection as a function of $\Delta\eta$ in high $p_{T}$ in PbPb for 70-80% centrality

Balance function projection as a function of $\Delta\phi$ in high $p_{T}$ in PbPb for 0-10% centrality

Balance function projection as a function of $\Delta\phi$ in high $p_{T}$ in PbPb for 30-40% centrality

Balance function projection as a function of $\Delta\phi$ in high $p_{T}$ in PbPb for 70-80% centrality

Balance function projection as a function of $\Delta\eta$ in high $p_{T}$ in pPb for $N_{trk}$ 0-40

Balance function projection as a function of $\Delta\eta$ in high $p_{T}$ in pPb for $N_{trk}$ 120-150

Balance function projection as a function of $\Delta\eta$ in high $p_{T}$ in pPb for $N_{trk}$ 270-300

Balance function projection as a function of $\Delta\phi$ in high $p_{T}$ in PbPb for $N_{trk}$ 0-40

Balance function projection as a function of $\Delta\phi$ in high $p_{T}$ in PbPb for $N_{trk}$ 120-150

Balance function projection as a function of $\Delta\phi$ in high $p_{T}$ in PbPb for $N_{trk}$ 270-300

Average width of the balance function in $\Delta \eta$ with $N_{ch}$ for low $p_{T}$

Average width of the balance function in $\Delta \eta$ with $N_{ch}$ for intermediate $p_{T}$

Average width of the balance function in $\Delta \eta$ with $N_{ch}$ for high $p_{T}$

Average width of the balance function in $\Delta \phi$ with $p_{T}$ for low $p_{T}$

Average width of the balance function in $\Delta \phi$ with $N_{ch}$ for intermediate $p_{T}$

Average width of the balance function in $\Delta \phi$ with $N_{ch}$ for high $p_{T}$

Average width of the balance function in $\Delta \eta$ with $N_{ch}$ for low $p_{T}$

Average width of the balance function in $\Delta \eta$ with $N_{ch}$ for intermediate $p_{T}$

Average width of the balance function in $\Delta \phi$ with $N_{ch}$ for high $p_{T}$

Average width of the balance function in $\Delta \phi$ with $N_{ch}$ for low $p_{T}$

Average width of the balance function in $\Delta \phi$ with $N_{ch}$ for intermediate $p_{T}$

Average width of the balance function in $\Delta \phi$ with $N_{ch}$ for high $p_{T}$

The nuclear modification factor $\mathrm{R_{AA}}$ versus $p_{\mathrm{T}}$ for prompt $\Lambda^+_c$ production in centrality regions of 0-90, 0-10, 10-30, 30-50 and 50-90% in PbPb collisions. The global uncertainty includes the uncertainties for the luminosity of pp collisions, number of MB events in PbPb collisions, and tracking efficiency. The global uncertainty for $\mathrm{R_{AA}}$ is 16.5%.

The ratio of the production cross sections of prompt $\Lambda^+_c$ to prompt $\mathrm{D_0}$ versus $p_{\mathrm{T}}$ from pp collisions. The global normalization uncertainty is 6.6%.

The ratio of the $\mathrm{T_{AA}}$-scaled prompt $\Lambda^+_c$ yields to prompt $\mathrm{D_0}$ versus $p_{\mathrm{T}}$ from PbPb collisions for 0-90 and 0-10% centrality classes. The global normalization uncertainty is 7.3%.

$p_{\rm T}$-differential cross section of charged-particle jets from model predictions in p-Pb collisions at $\sqrt{s_{\rm NN}} = 5.02$ TeV.

$p_{\rm T}$-differential cross section ratios of charged-particle jets in pp collisions at $\sqrt{s} = 5.02$ TeV.

$p_{\rm T}$-differential cross section ratios of charged-particle jets in p-Pb collisions at $\sqrt{s_{\rm NN}} = 5.02$ TeV.

$p_{\rm T}$-differential $R_{\rm pPb}$ of charged-particle jets in p-Pb collisions at $\sqrt{s_{\rm NN}} = 5.02$ TeV.

$p_{\rm T}$-differential $R_{\rm pPb}$ of charged-particle jets in p-Pb collisions at $\sqrt{s_{\rm NN}} = 5.02$ TeV.

$v_{2}\{2\}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Pb}-\mathrm{Pb}$ at $\sqrt{s_{\mathrm{NN}}}=5.023\,\mathrm{Te\!V}$

$v_{3}\{2\}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Pb}-\mathrm{Pb}$ at $\sqrt{s_{\mathrm{NN}}}=5.023\,\mathrm{Te\!V}$

$v_{4}\{2\}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Pb}-\mathrm{Pb}$ at $\sqrt{s_{\mathrm{NN}}}=5.023\,\mathrm{Te\!V}$

$v_{2}\{4\}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Pb}-\mathrm{Pb}$ at $\sqrt{s_{\mathrm{NN}}}=5.023\,\mathrm{Te\!V}$

$r_{2,2}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Pb}-\mathrm{Pb}$ at $\sqrt{s_{\mathrm{NN}}}=5.023\,\mathrm{Te\!V}$

$r_{2,2}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Pb}-\mathrm{Pb}$ at $\sqrt{s_{\mathrm{NN}}}=5.023\,\mathrm{Te\!V}$

$r_{3,3}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Pb}-\mathrm{Pb}$ at $\sqrt{s_{\mathrm{NN}}}=5.023\,\mathrm{Te\!V}$

$r_{3,3}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Pb}-\mathrm{Pb}$ at $\sqrt{s_{\mathrm{NN}}}=5.023\,\mathrm{Te\!V}$

$v_{2}\{2\}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Xe}-\mathrm{Xe}$ at $\sqrt{s_{\mathrm{NN}}}=5.44\,\mathrm{Te\!V}$

$v_{3}\{2\}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Xe}-\mathrm{Xe}$ at $\sqrt{s_{\mathrm{NN}}}=5.44\,\mathrm{Te\!V}$

$v_{2}\{2\}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Xe}-\mathrm{Xe}$ at $\sqrt{s_{\mathrm{NN}}}=5.44\,\mathrm{Te\!V}$

$v_{3}\{2\}$ versus $\eta$ for $x^{\pm}$ in $\mathrm{Xe}-\mathrm{Xe}$ at $\sqrt{s_{\mathrm{NN}}}=5.44\,\mathrm{Te\!V}$