Single differential cross section DSIG/DCOS(THETA).

Double differential cross section D2SIG/DM/DPT in the diphoton mass range 30 TO 50 GeV.

Double differential cross section D2SIG/DM/DPHI in the diphoton mass range 30 TO 50 GeV.

Double differential cross section D2SIG/DM/DCOS(THETA) in the diphoton mass range 30 TO 50 GeV.

Double differential cross section D2SIG/DM/DPT in the diphoton mass range 50 TO 80 GeV.

Double differential cross section D2SIG/DM/DPHI in the diphoton mass range 50 TO 80 GeV.

Double differential cross section D2SIG/DM/DCOS(THETA) in the diphoton mass range 50 TO 80 GeV.

Double differential cross section D2SIG/DM/DPT in the diphoton mass range 80 TO 350 GeV.

Double differential cross section D2SIG/DM/DPHI in the diphoton mass range 80 TO 350 GeV.

Double differential cross section D2SIG/DM/DCOS(THETA) in the diphoton mass range 80 TO 350 GeV.

Measured differential yield of charged hadrons as a function of transverse momentum for pseudorapidities 0.1, 0.3, 0.5 and 0.7 for centre-of-mass energy 2360 GeV.

Measured differential yield of charged hadrons as a function of transverse momentum for pseudorapidities 0.9, 1.1, 1.3 and 1.5 for centre-of-mass energy 2360 GeV.

Measured differential yield of charged hadrons as a function of transverse momentum for pseudorapidities 1.7, 1.9, 2.1 and 2.3 for centre-of-mass energy 2360 GeV.

Measured differential yield of charged hadrons as a function of transverse momentum for the pseudorapidity range -2.4 to +2.4 for centre-of-mass energies 900 and 2360 GeV.

Reconstructed differential charged hadron yields as a function of pseudorapidity averaged over the cluster counting, tracklet and tracking methods at centre-of-mass energies of 900 and 2360 GeV.

Dijet double differential cross section for the absolute rapidity region 1.2 to 1.6.

Dijet double differential cross section for the absolute rapidity region 1.6 to 2.0.

Dijet double differential cross section for the absolute rapidity region 2.0 to 2.4.

Proton and Deuteron F2 structure function for an x value of 0.175, determined via the Rosenbluth separation method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron F2 structure function for an x value of 0.250, determined via the Rosenbluth separation method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron F2 structure function for an x value of 0.350, determined via the Rosenbluth separation method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron F2 structure function for an x value of 0.040, determined via the Rosenbluth separation method. Error includes the contribution from radiative corrections.

Proton and Deuteron F2 structure function for an x value of 0.060, determined via the Rosenbluth separation method. Error includes the contribution from radiative corrections.

Proton and Deuteron F2 structure function for an x value of 0.080, determined via the Rosenbluth separation method. Error includes the contribution from radiative corrections.

Proton and Deuteron F2 structure function for an x value of 0.175, determined via the Rosenbluth separation method. Error includes the contribution from radiative corrections.

Proton and Deuteron F2 structure function for an x value of 0.250, determined via the Rosenbluth separation method. Error includes the contribution from radiative corrections.

Proton and Deuteron F2 structure function for an x value of 0.350, determined via the Rosenbluth separation method. Error includes the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.009, determined via the model-dependent method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.015, determined via the model-dependent method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.025, determined via the model-dependent method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.040, determined via the model-dependent method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.060, determined via the model-dependent method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.080, determined via the model-dependent method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.125, determined via the model-dependent method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.175, determined via the model-dependent method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.250, determined via the model-dependent method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.450, determined via the model-dependent method. Error is shown without the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.009, determined via the model-dependent method. Error includes the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.015, determined via the model-dependent method. Error includes the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.025, determined via the model-dependent method. Error includes the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.040, determined via the model-dependent method. Error includes the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.060, determined via the model-dependent method. Error includes the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.080, determined via the model-dependent method. Error includes the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.125, determined via the model-dependent method. Error includes the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.175, determined via the model-dependent method. Error includes the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.250, determined via the model-dependent method. Error includes the contribution from radiative corrections.

Proton and Deuteron cross sections and F2 structure function for an x value of 0.450, determined via the model-dependent method. Error includes the contribution from radiative corrections.

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0080. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0125. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0175. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0250. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0350. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0500. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0700. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0900. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.1100. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.1400. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.1800. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.2250. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.2750. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.3500. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.4500. Error is shown without the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0080. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0125. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0175. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0250. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0350. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0500. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0700. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.0900. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.1100. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.1400. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.1800. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.2250. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.2750. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.3500. Error includes the contribution from radiative corrections of O(alpha**2).

The ratios of the Deuteron to Proton cross sections and F2 structure function for an x value of 0.4500. Error includes the contribution from radiative corrections of O(alpha**2).

Balance functions in pseudorapidity windows -1 < eta < 1 for 0.15 < pT < 2 GEV/c.

Balance functions in pseudorapidity windows -1.3 < eta < 1.3 for 0.15 < pT < 2 GEV/c.

Balance functions observed at five different positions of pseudorapidity windows with |eta_w|=0.8 for 0.15 < pT < 2 GEV/c and -1 < eta < -0.2.

Balance functions observed at five different positions of pseudorapidity windows with |eta_w|=0.8 for 0.15 < pT < 2 GEV/c and -0.8 < eta < 0.

Balance functions observed at five different positions of pseudorapidity windows with |eta_w|=0.8 for 0.15 < pT < 2 GEV/c and -0.4 < eta < 0.4.

Balance functions observed at five different positions of pseudorapidity windows with |eta_w|=0.8 for 0.15 < pT < 2 GEV/c and 0 < eta < 0.8.

Balance functions observed at five different positions of pseudorapidity windows with |eta_w|=0.8 for 0.15 < pT < 2 GEV/c and 0.2 < eta < 1.

Scaled balance function obtained for various pseudorapidity window widths and positions for 0.15 < pT < 2 GEV/c and -0.3 < eta < 0.3.

Scaled balance function obtained for various pseudorapidity window widths and positions for 0.15 < pT < 2 GEV/c and 0 < eta < 1.

Scaled balance function obtained for various pseudorapidity window widths and positions for 0.15 < pT < 2 GEV/c and -1 < eta < 0.

Scaled balance function obtained for various pseudorapidity window widths and positions for 0.15 < pT < 2 GEV/c and -0.5 < eta < 0.5.

Scaled balance function obtained for various pseudorapidity window widths and positions for 0.15 < pT < 2 GEV/c and -1 < eta < 1.

Scaled balance function obtained for various pseudorapidity window widths and positions for 0.15 < pT < 2 GEV/c and -1.3 < eta < 1.3.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.15 < pT < 0.4 GEV/c and -0.3 < eta < 0.3.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.15 < pT < 0.4 GEV/c and 0 < eta < 1.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.15 < pT < 0.4 GEV/c and -1 < eta < 0.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.15 < pT < 0.4 GEV/c and -0.5 < eta < 0.5.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.15 < pT < 0.4 GEV/c and -1 < eta < 1.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.15 < pT < 0.4 GEV/c and -1.3 < eta < 1.3.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.4 < pT < 0.7 GEV/c and -0.3 < eta < 0.3.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.4 < pT < 0.7 GEV/c and 0 < eta < 1.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.4 < pT < 0.7 GEV/c and -1 < eta < 0.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.4 < pT < 0.7 GEV/c and -0.5 < eta < 0.5.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.4 < pT < 0.7 GEV/c and -1 < eta < 1.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.4 < pT < 0.7 GEV/c and -1.3 < eta < 1.3.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.7 < pT < 1 GEV/c and -0.3 < eta < 0.3.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.7 < pT < 1 GEV/c and 0 < eta < 1.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.7 < pT < 1 GEV/c and -1 < eta < 0.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.7 < pT < 1 GEV/c and -0.5 < eta < 0.5.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.7 < pT < 1 GEV/c and -1 < eta < 1.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 0.7 < pT < 1 GEV/c and -1.3 < eta < 1.3.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 1 < pT < 2 GEV/c and -0.3 < eta < 0.3.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 1 < pT < 2 GEV/c and 0 < eta < 1.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 1 < pT < 2 GEV/c and -1 < eta < 0.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 1 < pT < 2 GEV/c and -0.5 < eta < 0.5.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 1 < pT < 2 GEV/c and -1 < eta < 1.

B_s(d eta) based on B(d eta|eta_w) values measured in different pseudorapidity windows for particles in 1 < pT < 2 GEV/c and -1.3 < eta < 1.3.

The pT dependence of the width of the BF in 60-80% centrality.

The pT dependence of the width of the BF in 30-60% centrality.

The pT dependence of the width of the BF in 10-30% centrality.

The pT dependence of the width of the BF in 0-10% centrality.

The centrality dependence of the width of the BF in 0.15 < pT < 0.4 GEV/c.

The centrality dependence of the width of the BF in 0.4 < pT < 0.7 GEV/c.

The centrality dependence of the width of the BF in 0.7 < pT < 1 GEV/c.

The centrality dependence of the width of the BF in 1 < pT < 2 GEV/c.

Away-side jet widths from a Gaussian fit by $h^{\pm}$ partner momentum for various $\pi^0$ trigger momenta in Au+Au collisions.

Away-side $I_{AA}$ for the entire away-side $|\Delta \phi - \pi| < \pi /2$ selection vs. $h^{\pm}$ partner momentum for various $\pi^0$ trigger momenta. A point-to-point uncorrelated 6% normalization uncertainty (mainly due to efficiency corrections) applies to all measurements.

Away-side $I_{AA}$ for the entire away-side $|\Delta \phi - \pi| < \pi /2$ selection vs. $h^{\pm}$ partner momentum for various $\pi^0$ trigger momenta. A point-to-point uncorrelated 6% normalization uncertainty (mainly due to efficiency corrections) applies to all measurements.

Away-side $I_{AA}$ for a narrow “head” $|\Delta \phi - \pi| < \pi /6$ selection vs. $h^{\pm}$ partner momentum for various $\pi^0$ trigger momenta. A point-to-point uncorrelated 6% normalization uncertainty (mainly due to efficiency corrections) applies to all measurements.

Away-side $I_{AA}$ for a narrow “head” $|\Delta \phi - \pi| < \pi /6$ selection vs. $h^{\pm}$ partner momentum for various $\pi^0$ trigger momenta. A point-to-point uncorrelated 6% normalization uncertainty (mainly due to efficiency corrections) applies to all measurements.

Supplemental near-side jet widths from a Gaussian fit by $h^{\pm}$ partner momentum for various $\pi^0$ trigger momenta in $p+p$ collisions.

Supplemental near-side jet widths from a Gaussian fit by $h^{\pm}$ partner momentum for various $\pi^0$ trigger momenta in Au+Au collisions.

Supplemental near-side jet widths from a Gaussian fit by $h^{\pm}$ partner momentum for various $\pi^0$ trigger momenta in Au+Au collisions.

Supplemental away-side $I_{AA}$ for $|\Delta \phi - \pi| < \pi /3$ selection vs. $h^{\pm}$ partner momentum for various $\pi^0$ trigger momenta. A point-to-point uncorrelated 6% normalization uncertainty (mainly due to efficiency corrections) applies to all measurements.

Supplemental away-side $I_{AA}$ for $|\Delta \phi - \pi| < \pi /3$ selection vs. $h^{\pm}$ partner momentum for various $\pi^0$ trigger momenta. A point-to-point uncorrelated 6% normalization uncertainty (mainly due to efficiency corrections) applies to all measurements.

$p+p$ yield vs $p_T^a$ supplemental tables.

Au+Au yield vs $p_T^a$ supplemental tables.

Au+Au yield vs $p_T^a$ supplemental tables.

Inclusive Jet Cross Section ${\rm\frac{d\sigma_{jet}}{dP_T}}$.

2-Jet Cross Section ${\rm\frac{d\sigma_{2-jet}}{d\langle P_T \rangle}}$.

3-Jet Cross Section ${\rm\frac{d\sigma_{3-jet}}{d\langle P_T \rangle}}$.

Inclusive Jet Cross Section ${\rm\frac{d^2\sigma_{jet}}{dQ^2dP_T}}$.

2-Jet Cross Section ${\rm\frac{d^2\sigma_{2-jet}}{dQ^2d\langle P_T \rangle}}$.

2-Jet Cross Section ${\rm\frac{d^2\sigma_{2-jet}}{dQ^2d\xi}}$.

3-Jet Cross Section ${\rm\frac{d^2\sigma_{3-jet}}{dQ^2d\langle P_T \rangle}}$.

3-Jet to 2-Jet Cross Sections Ratio ${\rm\frac{d\sigma_{3-jet}}{dQ^2}/\frac{d\sigma_{2-jet}}{dQ^2}}$.

3-Jet to 2-Jet Cross Sections Ratio ${\rm\frac{d\sigma_{3-jet}}{d\langle P_T \rangle}/\frac{d\sigma_{2-jet}}{d\langle P_T \rangle}}$.

3-Jet to 2-Jet Cross Sections Ratio ${\rm\frac{d^2\sigma_{3-jet}}{dQ^2d\langle P_T \rangle}/\frac{d^2\sigma_{2-jet}}{dQ^2d\langle P_T \rangle}}$.