The spin transfer $D_{LL}$ to (a) $\Lambda$ and (b) $\bar{\Lambda}$ hyperons produced at positive pseudorapidity with respect to the polarized proton beam from $MB$, $JP$, and $HT$ data versus hyperon transverse momenta $p_{T}$. The sizes of the statistical and systematic uncertainties are indicated by the vertical bars and bands, respectively. For clarity, the HT data points have been shifted slightly in $p_{T}$. The dotted vertical lines indicate the $p_{T}$ intervals in the analysis of HT and JP data.

Comparison of $\Lambda$ and $\bar{\Lambda}$ spin transfer $D_{LL}$ in polarized proton-proton collisions at $\sqrt{s} = 200 GeV$ for (a) positive and (b) negative $\eta$ versus $p_{T}$. The vertical bars and bands indicate the sizes of the statistical and systematic uncertainties, respectively. The $\bar{\Lambda}$ data points have been shifted slightly in $p_{T}$ for clarity. The dotted vertical lines indicate the $p_{T}$ intervals in the analysis of HT and JP data. The horizontal lines show model predictions evaluated at $\eta$ and largest $p_{T}$ of the data.

Comparison of $\Lambda$ and $\bar{\Lambda}$ spin transfer $D_{LL}$ in polarized proton-proton collisions at $\sqrt{s} = 200$ GeV for (a) positive and (b) negative $\eta$ versus $p_{T}$. The vertical bars and bands indicate the sizes of the statistical and systematic uncertainties, respectively. The $\bar{\Lambda}$ data points have been shifted slightly in $p_{T}$ for clarity. The dotted vertical lines indicate the $p_{T}$ intervals in the analysis of HT and JP data. The horizontal lines show model predictions evaluated at $\eta$ and largest $p_{T}$ of the data.

The spin transfer $D_{LL}$ to (a) $\Lambda$ and (b) $\bar{\Lambda}$ hyperons, calculated using the new $\alpha_\Lambda=0.732$ updated on PDG2020, produced at positive pseudorapidity with respect to the polarized proton beam from $MB$, $JP$, and $HT$ data versus hyperon transverse momenta $p_{T}$. The sizes of the statistical and systematic uncertainties are indicated by the vertical bars and bands, respectively. For clarity, the HT data points have been shifted slightly in $p_{T}$. The dotted vertical lines indicate the $p_{T}$ intervals in the analysis of HT and JP data.

The spin transfer $D_{LL}$ to (a) $\Lambda$ and (b) $\bar{\Lambda}$ hyperons, calculated using the new $\alpha_\Lambda=0.732$ updated on PDG2020, produced at positive pseudorapidity with respect to the polarized proton beam from $MB$, $JP$, and $HT$ data versus hyperon transverse momenta $p_{T}$. The sizes of the statistical and systematic uncertainties are indicated by the vertical bars and bands, respectively. For clarity, the HT data points have been shifted slightly in $p_{T}$. The dotted vertical lines indicate the $p_{T}$ intervals in the analysis of HT and JP data.

Comparison of $\Lambda$ and $\bar{\Lambda}$ spin transfer $D_{LL}$, calculated using the new $\alpha_\Lambda=0.732$ updated on PDG2020, in polarized proton-proton collisions at $\sqrt{s} = 200$ GeV for (a) positive and (b) negative $\eta$ versus $p_{T}$. The vertical bars and bands indicate the sizes of the statistical and systematic uncertainties, respectively. The $\bar{\Lambda}$ data points have been shifted slightly in $p_{T}$ for clarity. The dotted vertical lines indicate the $p_{T}$ intervals in the analysis of HT and JP data. The horizontal lines show model predictions evaluated at $\eta$ and largest $p_{T}$ of the data.

C(k*)/(quadratic baseline) for K0s K+ and all kT, systematic uncertainties negligible for k*>0.06 GeV/c

C(k*)/(quadratic baseline) for K0s K+ and kT < 0.85 GeV/c, systematic uncertainties negligible for k*>0.06 GeV/c

C(k*)/(quadratic baseline) for K0s K+ and kT > 0.85 GeV/c, systematic uncertainties negligible for k*>0.06 GeV/c

C(k*)/(quadratic baseline) for K0s K- and all kT, systematic uncertainties negligible for k*>0.06 GeV/c

C(k*)/(quadratic baseline) for K0s K- and kT < 0.85 GeV/c, systematic uncertainties negligible for k*>0.06 GeV/c

C(k*)/(quadratic baseline) for K0s K- and kT > 0.85 GeV/c, systematic uncertainties negligible for k*>0.06 GeV/c

R vs. kT for 7 TeV pp averaged over K0s K+ and K0s K- with Achasov2 parameters

R vs. kT for 2.76 TeV/nucleon Pb Pb averaged over K0s K+ and K0s K- with Achasov2 parameters

lambda/purity vs. kT for 7 TeV pp averaged over K0s K+ and K0s K- with Achasov2 parameters

lambda/purity vs. kT for 2.76 TeV/nucleon Pb Pb averaged over K0s K+ and K0s K- with Achasov2 parameters

R vs. kT for 7 TeV pp averaged over K0s K+ and K0s K- and with Achasov2 parameters

R vs. kT for 7 TeV pp --> K0s K0s averaged over event multiplicity

R vs. kT for 7 TeV pp --> K+- K+- averaged over event multiplicity and averaged between K+ and K-

lambda/purity vs. kT for 7 TeV pp averaged over K0s K+ and K0s K- and with Achasov2 parameters

lambda/purity vs. kT for 7 TeV pp --> K0s K0s averaged over event multiplicity

lambda/purity vs. kT for 7 TeV pp --> K+- K+- averaged over event multiplicity and averaged between K+ and K-

The average transverse momentum as a function of multiplicity of charged particles having transverse momentum in the range 0.15-10 GeV/c and |eta| < 0.3 produced from P-PB collisions at a centre-of mass energy/nucleon of 5.02 TeV.

The average transverse momentum as a function of multiplicity of charged particles having transverse momentum in the range 0.15-10 GeV/c and |eta| < 0.3 produced from PB-PB collisions at a centre-of mass energy/nucleon of 2.76 TeV.

$^3\overline{\mathrm{H}} /\,^3\mathrm{H}$ ratio in $\mathrm{INEL}>0$ p--Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Transverse momentum spectra obtained from the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ for $\mathrm{INEL}>0$ events in p$-$Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Transverse momentum spectra obtained from the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ for events in 0$-$10% multiplicity class in p$-$Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Transverse momentum spectra obtained from the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ for events in 10$-$20% multiplicity class in p$-$Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Transverse momentum spectra obtained from the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ for events in 20$-$40% multiplicity class in p--Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Transverse momentum spectra obtained from the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ for events in 40$-$100% multiplicity class in p--Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Mean transverse momentum obtained from the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ as a function of the mean charged-particle multiplicity density in p--Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$ TeV

Coalescence parameter $B_3$ calculated using the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ for $\mathrm{INEL}>0$ events in p$-$Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Coalescence parameter $B_3$ calculated using the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ for events in 0$-$10% multiplicity class in p$-$Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Coalescence parameter $B_3$ calculated using the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ for events in 10$-$20% multiplicity class in p$-$Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Coalescence parameter $B_3$ calculated using the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ for events in 20$-$40% multiplicity class in p--Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Coalescence parameter $B_3$ calculated using the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ for events in 40$-$100% multiplicity class in p--Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Integrated production yield obtained from the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ corrected for the spin degeneracy factor $(2J +1)$ for minimum-bias p--Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Upper limit on the integrated production yield of $^4\overline{\mathrm{He}}$ at 90$\%$ confidence level corrected for the spin degeneracy factor $(2J +1)$ for minimum-bias p--Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Integrated production yield obtained from the average of $^3\mathrm{He}$ and $^3\overline{\mathrm{He}}$ for the different multiplicity classes and $\mathrm{INEL} > 0$ p--Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Integrated production yield obtained from the average of $^3\mathrm{H}$ and $^3\overline{\mathrm{H}}$ for $\mathrm{INEL} > 0$ p--Pb collisions at $\sqrt{s_\mathrm{NN}} = 5.02$

Non-prompt J/$\psi$ fraction as a function of average number of participants in Pb-Pb at 5.02 TeV

Non-prompt J/$\psi$ yields as a function of transverse momentum in Pb-Pb at 5.02 TeV, centrality 0-10%

Prompt J/$\psi$ yields as a function of transverse momentum in Pb-Pb at 5.02 TeV, centrality 0-10%

Prompt J/$\psi$ nuclear modification factor as a function of transverse momentum in Pb-Pb at 5.02 TeV, centrality 0-10%. Global uncertainty 2.3%

Prompt J/$\psi$ nuclear modification factor as a function of transverse momentum in Pb-Pb at 5.02 TeV, centrality 10-30%. Global uncertainty 2.3%

Prompt J/$\psi$ nuclear modification factor as a function of transverse momentum in Pb-Pb at 5.02 TeV, centrality 30-50%. Global uncertainty 2.7%

Prompt J/$\psi$ nuclear modification factor as a function of average number of participants in Pb-Pb at 5.02 TeV. Global uncertainty 2.2%

Non-prompt J/$\psi$ nuclear modification factor as a function of transverse momentum in Pb-Pb at 5.02 TeV, centrality 0-10%. Global uncertainty 2.3%

Non-prompt J/$\psi$ nuclear modification factor as a function of transverse momentum in Pb-Pb at 5.02 TeV,, centrality 10-30%. Global uncertainty 2.3%

Non-prompt J/$\psi$ nuclear modification factor as a function of transverse momentum in Pb-Pb at 5.02 TeV, centrality 30-50%. Global uncertainty 2.7%

Non-prompt J/$\psi$ nuclear modification factor as a function of average number of participants in Pb-Pb at 5.02 TeV. Global uncertainty 2.7%

Prompt J/$\psi$ yields as a function of transverse momentum in Pb-Pb at 5.02 TeV, centrality 30-50%

Non-prompt J/$\psi$ yields as a function of transverse momentum in Pb-Pb at 5.02 TeV, centrality 30-50%

Reconstructed mass of $\rho^{0}$ meson in 40-60$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

Reconstructed mass of $\rho^{0}$ meson in 60-80$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

Yield of $\rho^{0}$ meson normalized to the number of inelastic pp collisions at $\sqrt{s}=2.76~{\rm TeV}$.

Yield of $\rho^{0}$ meson in 0-20$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

Yield of $\rho^{0}$ meson in 20-40$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

Yield of $\rho^{0}$ meson in 40-60$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

Yield of $\rho^{0}$ meson in 60-80$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

Ratio of integrated yields $2\rho^{0}/(\pi^{+}+\pi^{-})$ as a function of $(dN_{ch}/d\eta)^{1/3}$ in pp and 0-20$\%$, 20-40$\%$, 40-60$\%$, 60-80$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

Mean transverse momentum of $\rho^{0}$ meson as a function of $(dN_{ch}/d\eta)^{1/3}$ in pp and 0-20$\%$, 20-40$\%$, 40-60$\%$, 60-80$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

Ratio $2\rho^{0}/(\pi^{+}+\pi^{-})$ as a function of $p_{T}$ in pp collisions at $\sqrt{s}=2.76~{\rm TeV}$.

Ratio $2\rho^{0}/(\pi^{+}+\pi^{-})$ as a function of $p_{T}$ in 0-20$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

Ratio $2\rho^{0}/(\pi^{+}+\pi^{-})$ as a function of $p_{T}$ in 60-80$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

$R_{AA}$ as a function of $p_{T}$ in 0-20$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

$R_{AA}$ as a function of $p_{T}$ in 20-40$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

$R_{AA}$ as a function of $p_{T}$ in 40-60$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

$R_{AA}$ as a function of $p_{T}$ in 60-80$\%$ central Pb-Pb collisions at $\sqrt{s_{\rm NN}}=2.76~{\rm TeV}$.

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 15-20% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 20-25% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 25-30% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 30-35% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 35-40% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 40-45% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 45-50% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 50-55% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 55-60% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 60-65% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 65-70% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 70-75% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 75-80% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 80-85% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 85-90% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 90-95% central Pb-Pb collisions at 5.02 TeV

Nuclear modification factor RAA versus pT for charged particles at midrapidity in 95-100% central Pb-Pb collisions at 5.02 TeV

Slope of a linear fit to RAA for 8 < pT < 20 GeV/c versus centrality percentile

R_{+1} versus pT for charged particles at midrapidity in 5-10% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 10-15% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 15-20% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 20-25% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 25-30% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 30-35% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 35-40% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 40-45% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 45-50% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 50-55% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 55-60% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 60-65% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 65-70% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 70-75% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 75-80% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 80-85% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 85-90% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 90-95% central Pb-Pb collisions at 5.02 TeV

R_{+1} versus pT for charged particles at midrapidity in 95-100% central Pb-Pb collisions at 5.02 TeV

$p_{T}$-distributions of kaons ($K^{+}+K^{-}$) measured in pp collisions at $\sqrt{s}$ = 5.02 TeV.

$p_{T}$-distributions of protons ($p+pbar$) measured in Pb-Pb collisions at $\sqrt{s_{NN}}$ = 5.02 TeV.

$p_{T}$-distributions of protons ($p+pbar$) measured in pp collisions at $\sqrt{s}$ = 5.02 TeV.

$p_{T}$-distributions of kaons ($K^{+}+K^{-}$)/pions ($\pi^{+}+\pi^{-}$) measured in Pb-Pb collisions at $\sqrt{s_{NN}}$ = 5.02 TeV.

$p_{T}$-distributions of kaons ($K^{+}+K^{-}$)/pions ($\pi^{+}+\pi^{-}$) measured in pp collisions at $\sqrt{s}$ = 5.02 TeV.

$p_{T}$-distributions of protons ($p+pbar$)/pions ($\pi^{+}+\pi^{-}$) measured in Pb-Pb collisions at $\sqrt{s_{NN}}$ = 5.02 TeV.

$p_{T}$-distributions of protons ($p+pbar$)/pions ($\pi^{+}+\pi^{-}$) measured in pp collisions at $\sqrt{s}$ = 5.02 TeV.

Integrated yield ratios of kaons ($K^{+}+K^{-}$) to pions ($\pi^{+}+\pi^{-}$) measured in Pb-Pb collisions at $\sqrt{s_{NN}}$ = 5.02 TeV.

Integrated yield ratios of kaons ($K^{+}+K^{-}$) to pions ($\pi^{+}+\pi^{-}$) measured in pp collisions at $\sqrt{s}$ = 5.02 TeV.

Integrated yield ratios of protons ($p+pbar$) to pions ($\pi^{+}+\pi^{-}$) measured in Pb-Pb collisions at $\sqrt{s_{NN}}$ = 5.02 TeV.

Integrated yield ratios of protons ($p+pbar$) to pions ($\pi^{+}+\pi^{-}$) measured in pp collisions at $\sqrt{s}$ = 5.02 TeV.

$p_{T}$-dependent nuclear modification factor of pions ($\pi^{+}+\pi^{-}$) measured in Pb-Pb collisions at $\sqrt{s_{NN}}$ = 5.02 TeV.

$p_{T}$-dependent nuclear modification factor of kaons ($K^{+}+K^{-}$) measured in Pb-Pb collisions at $\sqrt{s_{NN}}$ = 5.02 TeV.

$p_{T}$-dependent nuclear modification factor of protons ($p+pbar$) measured in Pb-Pb collisions at $\sqrt{s_{NN}}$ = 5.02 TeV.

Transverse momentum distributions of anti-deuterons in the INEL pp collisions

$\bar{d}$/d ratio as a function of transverse momentum in INEL>0 pp collisions

Coalescence parameter $B_2$ as a function of $p_{\mathrm{T}}$ in the INEL>0 pp collisions V0M multiplicity class

Deuteron over proton ratio in pp collisions as a function of the charged particle multiplicity density ad mid-rapidity

The widths of near-side peaks for trigger jets in-plane, mid-plane, and out-of-plane vs $p_{T}^{assoc}$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions. The background uncertainty is non-trivially correlated point-to-point. The correlated systematic uncertainties come from the shape uncertainty of the acceptance correction.

The widths of away-side peaks for trigger jets in-plane, mid-plane, and out-of-plane vs $p_{T}^{assoc}$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions. The background uncertainty is non-trivially correlated point-to-point. The correlated systematic uncertainties come from the shape uncertainty of the acceptance correction.

Background subtracted correlation functions for $1.0<p_{T}^{assoc}<1.5$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Background subtracted correlation functions for $1.5<p_{T}^{assoc}<2.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Background subtracted correlation functions for $2.0<p_{T}^{assoc}<3.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Background subtracted correlation functions for $3.0<p_{T}^{assoc}<4.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Background subtracted correlation functions for $4.0<p_{T}^{assoc}<5.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Background subtracted correlation functions for $5.0<p_{T}^{assoc}<6.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Background subtracted correlation functions for $6.0<p_{T}^{assoc}<10.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in background dominated region for $1.0<p_{T}^{assoc}<1.5$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in background dominated region for $1.5<p_{T}^{assoc}<2.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in background dominated region for $2.0<p_{T}^{assoc}<3.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in background dominated region for $3.0<p_{T}^{assoc}<4.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in background dominated region for $4.0<p_{T}^{assoc}<5.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in background dominated region for $5.0<p_{T}^{assoc}<6.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in background dominated region for $6.0<p_{T}^{assoc}<10.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $1.0<p_{T}^{assoc}<1.5$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $1.5<p_{T}^{assoc}<2.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $2.0<p_{T}^{assoc}<3.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $3.0<p_{T}^{assoc}<4.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $4.0<p_{T}^{assoc}<5.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $5.0<p_{T}^{assoc}<6.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $6.0<p_{T}^{assoc}<10.0$ GeV/$c$ for $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Response matrices for all jets with kinematic cuts described in the paper for 30-50% centrality in Pb-Pb collisions

Response matrices for in-plane jets with kinematic cuts described in the paper for 30-50% centrality in Pb-Pb collisions

Response matrices for mid-plane jets with kinematic cuts described in the paper for 30-50% centrality in Pb-Pb collisions

Response matrices for out-of-plane jets with kinematic cuts described in the paper for 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $1.0<p_{T}^{assoc}<1.5$ GeV/$c$ for in-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $1.0<p_{T}^{assoc}<1.5$ GeV/$c$ for mid-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $1.0<p_{T}^{assoc}<1.5$ GeV/$c$ for out-of-planes $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $1.0<p_{T}^{assoc}<1.5$ GeV/$c$ for all $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $1.5<p_{T}^{assoc}<2.0$ GeV/$c$ for in-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $1.5<p_{T}^{assoc}<2.0$ GeV/$c$ for mid-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $1.5<p_{T}^{assoc}<2.0$ GeV/$c$ for out-of-planes $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $1.5<p_{T}^{assoc}<2.0$ GeV/$c$ for all $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $2.0<p_{T}^{assoc}<3.0$ GeV/$c$ for in-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $2.0<p_{T}^{assoc}<3.0$ GeV/$c$ for mid-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $2.0<p_{T}^{assoc}<3.0$ GeV/$c$ for out-of-planes $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $2.0<p_{T}^{assoc}<3.0$ GeV/$c$ for all $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $3.0<p_{T}^{assoc}<4.0$ GeV/$c$ for in-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $3.0<p_{T}^{assoc}<4.0$ GeV/$c$ for mid-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $3.0<p_{T}^{assoc}<4.0$ GeV/$c$ for out-of-planes $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $3.0<p_{T}^{assoc}<4.0$ GeV/$c$ for all $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $4.0<p_{T}^{assoc}<5.0$ GeV/$c$ for in-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $4.0<p_{T}^{assoc}<5.0$ GeV/$c$ for mid-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $4.0<p_{T}^{assoc}<5.0$ GeV/$c$ for out-of-planes $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $4.0<p_{T}^{assoc}<5.0$ GeV/$c$ for all $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $5.0<p_{T}^{assoc}<6.0$ GeV/$c$ for in-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $5.0<p_{T}^{assoc}<6.0$ GeV/$c$ for mid-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $5.0<p_{T}^{assoc}<6.0$ GeV/$c$ for out-of-planes $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $5.0<p_{T}^{assoc}<6.0$ GeV/$c$ for all $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $6.0<p_{T}^{assoc}<10.0$ GeV/$c$ for in-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $6.0<p_{T}^{assoc}<10.0$ GeV/$c$ for mid-plane $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $6.0<p_{T}^{assoc}<10.0$ GeV/$c$ for out-of-planes $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions

Correlation functions in signal plus background region for $6.0<p_{T}^{assoc}<10.0$ GeV/$c$ for all $20<p_T^{jet}<40$ GeV/$c$ full jets of 30-50% centrality in Pb-Pb collisions