Nuclear modification factor $R_{AA}$ in 10% most central $Au$+$Au$ collisions.

Nuclear modification factor $R_{dA}$ for ($h^+$+$h^-$)/2 in minimum bias $d$+$Au$.

$R_{AA}$ in the 10% most central $Au$+$Au$ collisions.

$R_{dA}$ for ($h^+$+$h^-$)/2 measurement in $d$+$Au$.

$R_{dA}$ for $\pi^0$ measurement in $d$+$Au$.

Ratio of $R_{dA}$ in minimum bias $d$+$Au$ and $R_{pA}$ from neutron tagged $d$+$Au$ collisions for ($h^+$+$h^-$)/2.

Ratio of $R_{dA}$ in minimum bias $d$+$Au$ and $R_{pA}$ from neutron tagged $d$+$Au$ collisions for $\pi^0$

Nucelar modification factor $R_{CP}$ for ($p+\bar{p}$)/2.

Nucelar modification factor $R_{CP}$ for $\pi^0$.

Charged hadron to $\pi^0$ ratio in central (0-10%) Au+Au collisions.

Charged hadron to $\pi^0$ ratio in peripheral (60-92%) Au+Au collisions. The peripheral data points are offset by +130 MeV/$c$ for clarity.

Systematic error on normalization a) common to both centralities b) that can move the $h$/$\pi^0$ ratios for each centrality independent of the other.

Transverse momentum dependepnce of $v_2$ for identified particle $\pi^-$.

Transverse momentum dependepnce of $v_2$ for identified particle $K^-$.

Transverse momentum dependepnce of $v_2$ for identified particle $\bar{p}$.

Transverse momentum dependepnce of $v_2$ for identified particle $\pi^+$.

Transverse momentum dependepnce of $v_2$ for identified particle $K$.

Transverse momentum dependepnce of $v_2$ for identified particle $p$.

Transverse momentum dependepnce of $v_2$ for combined particles $\pi^+$ and $\pi^-$.

Transverse momentum dependepnce of $v_2$ for combined particles $K^+$ and $K^-$.

Transverse momentum dependepnce of $v_2$ for combined particles $p$ and $\bar{p}$.

Transverse momentum dependepnce of $v_2$ for combined particles $\pi^+$ and $\pi^-$ scaled by quarks for each particle as motivated by a quark coalescence model.

Transverse momentum dependepnce of $v_2$ for combined particles $K^+$ and $K^-$ scaled by quarks for each particle as motivated by a quark coalescence model.

Transverse momentum dependepnce of $v_2$ for combined particles $p$ and $\bar{p}$ scaled by quarks for each particle as motivated by a quark coalescence model.

Transverse momentum dependence of $v_2$ for negative charged particle distributions at 0-20% centrality.

Transverse momentum dependence of $v_2$ for combined $\pi^-$ and $K^-$ at 0-20% centrality.

Transverse momentum dependence of $v_2$ for $\bar{p}$ at 0-20% centrality.

Transverse momentum dependence of $v_2$ for positive charged particle distributions at 0-20% centrality.

Transverse momentum dependence of $v_2$ for combined $\pi^+$ and $K^+$ at 0-20% centrality.

Transverse momentum dependence of $v_2$ for $p$ at 0-20% centrality.

Transverse momentum dependence of $v_2$ for negative charged particle distributions at 20-40% centrality.

Transverse momentum dependence of $v_2$ for combined $\pi^-$ and $K^-$ at 20-40% centrality.

Transverse momentum dependence of $v_2$ for $\bar{p}$ at 20-40% centrality.

Transverse momentum dependence of $v_2$ for positive charged particle distributions at 20-40% centrality.

Transverse momentum dependence of $v_2$ for combined $\pi^+$ and $K^+$ at 20-40% centrality.

Transverse momentum dependence of $v_2$ for $p$ at 20-40% centrality.

Transverse momentum dependence of $v_2$ for negative charged particle distributions at 40-60% centrality.

Transverse momentum dependence of $v_2$ for combined $\pi^-$ and $K^-$ at 40-60% centrality.

Transverse momentum dependence of $v_2$ for $\bar{p}$ at 40-60% centrality.

Transverse momentum dependence of $v_2$ for positive charged particle distributions at 40-60% centrality.

Transverse momentum dependence of $v_2$ for combined $\pi^+$ and $K^+$ at 40-60% centrality.

Transverse momentum dependence of $v_2$ for $p$ at 40-60% centrality.

Invariant $\pi^0$ yields at midrapidity as a function of $p_T$ for minimum bias and nine centralities in $Au\ +\ Au$ at $\sqrt{s_{NN}} = 200\ GeV$ [0%–10% (80%–92%) is most central (peripheral)]. The labels "uncorr." and "corr." include systematic errors that are uncorrelated and correlated point-to-point, respectively.

Invariant $\pi^0$ yields at midrapidity as a function of $p_T$ for minimum bias and nine centralities in $Au\ +\ Au$ at $\sqrt{s_{NN}} = 200\ GeV$ [0%–10% (80%–92%) is most central (peripheral)]. The labels "uncorr." and "corr." include systematic errors that are uncorrelated and correlated point-to-point, respectively.

Invariant $\pi^0$ yields at midrapidity as a function of $p_T$ for minimum bias and nine centralities in $Au\ +\ Au$ at $\sqrt{s_{NN}} = 200\ GeV$ [0%–10% (80%–92%) is most central (peripheral)]. The labels "uncorr." and "corr." include systematic errors that are uncorrelated and correlated point-to-point, respectively.

Invariant $\pi^0$ yields at midrapidity as a function of $p_T$ for minimum bias and nine centralities in $Au\ +\ Au$ at $\sqrt{s_{NN}} = 200\ GeV$ [0%–10% (80%–92%) is most central (peripheral)]. The labels "uncorr." and "corr." include systematic errors that are uncorrelated and correlated point-to-point, respectively.

Invariant $\pi^0$ yields at midrapidity as a function of $p_T$ for minimum bias and nine centralities in $Au\ +\ Au$ at $\sqrt{s_{NN}} = 200\ GeV$ [0%–10% (80%–92%) is most central (peripheral)]. The labels "uncorr." and "corr." include systematic errors that are uncorrelated and correlated point-to-point, respectively.

Invariant $\pi^0$ yields at midrapidity as a function of $p_T$ for minimum bias and nine centralities in $Au\ +\ Au$ at $\sqrt{s_{NN}} = 200\ GeV$ [0%–10% (80%–92%) is most central (peripheral)]. The labels "uncorr." and "corr." include systematic errors that are uncorrelated and correlated point-to-point, respectively.

Invariant $\pi^0$ yields at midrapidity as a function of $p_T$ for minimum bias and nine centralities in $Au\ +\ Au$ at $\sqrt{s_{NN}} = 200\ GeV$ [0%–10% (80%–92%) is most central (peripheral)]. The labels "uncorr." and "corr." include systematic errors that are uncorrelated and correlated point-to-point, respectively.

Invariant $\pi^0$ yields at midrapidity as a function of $p_T$ for minimum bias and nine centralities in $Au\ +\ Au$ at $\sqrt{s_{NN}} = 200\ GeV$ [0%–10% (80%–92%) is most central (peripheral)]. The labels "uncorr." and "corr." include systematic errors that are uncorrelated and correlated point-to-point, respectively.

Invariant $\pi^0$ yields at midrapidity as a function of $p_T$ for minimum bias and nine centralities in $Au\ +\ Au$ at $\sqrt{s_{NN}} = 200\ GeV$ [0%–10% (80%–92%) is most central (peripheral)]. The labels "uncorr." and "corr." include systematic errors that are uncorrelated and correlated point-to-point, respectively.

Invariant $\pi^0$ yields at midrapidity as a function of $p_T$ for minimum bias and nine centralities in $Au\ +\ Au$ at $\sqrt{s_{NN}} = 200\ GeV$ [0%–10% (80%–92%) is most central (peripheral)]. The labels "uncorr." and "corr." include systematic errors that are uncorrelated and correlated point-to-point, respectively.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

Nuclear modification factor $R_{AA}(p_T)$ for $\pi^0$ in Au+Au collisions at $\sqrt{s_{NN}} = 200$ GeV. The error bars include all point-to-point experimental ($p+p$, Au+Au) errors. The label "sys(uncorr)" refers to the uncorrelated point-to-point uncertainty (which includes statistical errors), while "sys(norm)" is the normalization uncertainty.

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The spin structure function G1D for the Q**2 region 0.27 to 0.39 GeV**2.

The spin structure function G1D for the Q**2 region 0.39 to 0.65 GeV**2.

The spin structure function G1D for the Q**2 region 0.65 to 1.3 GeV**2.

First moments of the spin structure function G1. The integral is normalizedto the number of nucleons in deuterium.

Differential cross section in the energy region 3.74 to 3.92 GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1475 to 1500GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1500 to 1525GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1525 to 1550GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1550 to 1575GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1575 to 1600GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1600 to 1625GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1625 to 1650GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1650 to 1675GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1675 to 1700GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1700 to 1725GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1725 to 1750GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1750 to 1775GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1775 to 1800GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1800 to 1825GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1825 to 1850GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1850 to 1875GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1875 to 1900GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1900 to 1925GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1925 to 1950GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1950 to 1975GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 1975 to 2000GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 2000 to 2025GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 2025 to 2050GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 2050 to 2075GeV.

Measured cross section DSIG/DM(PI+PI-) for the W range 2075 to 2100GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1400 to 1425GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1425 to 1450GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1450 to 1475GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1475 to 1500GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1500 to 1525GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1525 to 1550GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1550 to 1575GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1575 to 1600GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1600 to 1625GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1625 to 1650GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1650 to 1675GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1675 to 1700GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1700 to 1725GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1725 to 1750GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1750 to 1775GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1775 to 1800GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1800 to 1825GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1825 to 1850GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1850 to 1875GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1875 to 1900GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1900 to 1925GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1925 to 1950GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1950 to 1975GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 1975 to 2000GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 2000 to 2025GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 2025 to 2050GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 2050 to 2075GeV.

Measured cross section DSIG/DM(PI+Proton) for the W range 2075 to 2100GeV.

Measured c.m. angular distribution of the PI- for the W range 1400 to 1425GeV.

Measured c.m. angular distribution of the PI- for the W range 1425 to 1450GeV.

Measured c.m. angular distribution of the PI- for the W range 1450 to 1475GeV.

Measured c.m. angular distribution of the PI- for the W range 1475 to 1500GeV.

Measured c.m. angular distribution of the PI- for the W range 1500 to 1525GeV.

Measured c.m. angular distribution of the PI- for the W range 1525 to 1550GeV.

Measured c.m. angular distribution of the PI- for the W range 1550 to 1575GeV.

Measured c.m. angular distribution of the PI- for the W range 1575 to 1600GeV.

Measured c.m. angular distribution of the PI- for the W range 1600 to 1625GeV.

Measured c.m. angular distribution of the PI- for the W range 1625 to 1650GeV.

Measured c.m. angular distribution of the PI- for the W range 1650 to 1675GeV.

Measured c.m. angular distribution of the PI- for the W range 1675 to 1700GeV.

Measured c.m. angular distribution of the PI- for the W range 1700 to 1725GeV.

Measured c.m. angular distribution of the PI- for the W range 1725 to 1750GeV.

Measured c.m. angular distribution of the PI- for the W range 1750 to 1775GeV.

Measured c.m. angular distribution of the PI- for the W range 1775 to 1800GeV.

Measured c.m. angular distribution of the PI- for the W range 1800 to 1825GeV.

Measured c.m. angular distribution of the PI- for the W range 1825 to 1850GeV.

Measured c.m. angular distribution of the PI- for the W range 1850 to 1875GeV.

Measured c.m. angular distribution of the PI- for the W range 1875 to 1900GeV.

Measured c.m. angular distribution of the PI- for the W range 1900 to 1925GeV.

Measured c.m. angular distribution of the PI- for the W range 1925 to 1950GeV.

Measured c.m. angular distribution of the PI- for the W range 1950 to 1975GeV.

Measured c.m. angular distribution of the PI- for the W range 1975 to 2000GeV.

Measured c.m. angular distribution of the PI- for the W range 2000 to 2025GeV.

Measured c.m. angular distribution of the PI- for the W range 2025 to 2050GeV.

Measured c.m. angular distribution of the PI- for the W range 2050 to 2075GeV.

Measured c.m. angular distribution of the PI- for the W range 2075 to 2100GeV.