Invariant yield of inclusive J/PSI(1S) times branching ratio to the dimuon decay in 40-60% Au+Au collisions at 200 GeV

Invariant yield of inclusive J/PSI(1S) times branching ratio to the dimuon decay in 60-80% Au+Au collisions at 200 GeV

Invariant yield of inclusive J/PSI(1S) times branching ratio to the dielectron decay in 0-60% Au+Au collisions at 200 GeV

Invariant yield of inclusive J/PSI(1S) times branching ratio to the dielectron decay in 0-20% Au+Au collisions at 200 GeV

Invariant yield of inclusive J/PSI(1S) times branching ratio to the dielectron decay in 20-40% Au+Au collisions at 200 GeV

Invariant yield of inclusive J/PSI(1S) times branching ratio to the dielectron decay in 40-60% Au+Au collisions at 200 GeV

Invariant yield of inclusive J/PSI(1S) times branching ratio in p+p collisions at 200 GeV. A 10% global uncertainty is not shown.

Inclusive J/PSI(1S) RAA vs. pT measured via the dimuon channel in 0-80% Au+Au collisions at 200 GeV. A global uncertainty of 12.2% is not shown.

Inclusive J/PSI(1S) RAA vs. pT measured via the dimuon channel in 0-20% Au+Au collisions at 200 GeV. A global uncertainty of 10.7% is not shown.

Inclusive J/PSI(1S) RAA vs. pT measured via the dimuon channel in 20-40% Au+Au collisions at 200 GeV. A global uncertainty of 14.5% is not shown.

Inclusive J/PSI(1S) RAA vs. pT measured via the dimuon channel in 40-60% Au+Au collisions at 200 GeV. A global uncertainty of 24.1% is not shown.

Inclusive J/PSI(1S) RAA vs. pT measured via the dimuon channel in 60-80% Au+Au collisions at 200 GeV. A global uncertainty of 38.6% is not shown.

Inclusive J/PSI(1S) RAA vs. pT measured via the dielectron channel in 0-60% Au+Au collisions at 200 GeV. A global uncertainty of 12.1% is not shown.

Inclusive J/PSI(1S) RAA vs. pT measured via the dielectron channel in 0-20% Au+Au collisions at 200 GeV. A global uncertainty of 10.7% is not shown.

Inclusive J/PSI(1S) RAA vs. pT measured via the dielectron channel in 20-40% Au+Au collisions at 200 GeV. A global uncertainty of 14.5% is not shown.

Inclusive J/PSI(1S) RAA vs. pT measured via the dielectron channel in 40-60% Au+Au collisions at 200 GeV. A global uncertainty of 24.1% is not shown.

Inclusive J/PSI(1S) RAA vs. centrality measured via the dimuon channel for pT > 0 GeV/c. The pp uncertainty of 14.3% is not shown.

Relative error on Ncoll as a function of centrality for measurement of J/PSI(1S) RAA with pT > 0 GeV/c via the dimuon channel.

Inclusive J/PSI(1S) RAA vs. centrality measured via the dimuon channel for pT > 5 GeV/c. The pp uncertainty of 15.0% is not shown.

Relative error on Ncoll as a function of centrality for measurement of J/PSI(1S) RAA with pT > 5 GeV/c via the dimuon channel.

Inclusive J/PSI(1S) RAA vs. centrality measured via the dielectron channel for pT > 5 GeV/c. The pp uncertainty of 15.0% is not shown.

Relative error on Ncoll as a function of centrality for measurement of J/PSI(1S) RAA with pT > 0 GeV/c via the dielectron channel.

Rapidity distributions of the fiducial yields and integrated $<p_{\perp}>$ for the $0-5\%$ and $70-80\%$ Au+Au collisions. Pion yields are scaled down by a factor of 5. Errors shown are those propagated from Fig.1. Systematic errors on the fiducial yields are $5\%$; those on $<p_{\perp}>$ are $5\%$ for pions and $5-10\%$ for kaons and antiprotons.

Rapidity distributions of the fiducial yields and integrated $<p_{\perp}>$ for the $0-5\%$ and $70-80\%$ Au+Au collisions. Pion yields are scaled down by a factor of 5. Errors shown are those propagated from Fig.1. Systematic errors on the fiducial yields are $5\%$; those on $<p_{\perp}>$ are $5\%$ for pions and $5-10\%$ for kaons and antiprotons.

Mean transverse momentum of negative particles and (b) $K^-/\pi^-$ and $\bar{p}/\pi^-$ ratios as function of the charged hadron multiplicity. Open symbols are for pp, and filled ones are for Au+Au data. (c) Mid-rapidity $K^-/\pi^-$ ratio as function of $\frac{(dN/dy)_{\pi}}{S}$. Systematic errors are shown for STAR data, and statistical errors for other data.

Mean transverse momentum of negative particles and (b) $K^-/\pi^-$ and $\bar{p}/\pi^-$ ratios as function of the charged hadron multiplicity. Open symbols are for pp, and filled ones are for Au+Au data. (c) Mid-rapidity $K^-/\pi^-$ ratio as function of $\frac{(dN/dy)_{\pi}}{S}$. Systematic errors are shown for STAR data, and statistical errors for other data.

Mean transverse momentum of negative particles and (b) $K^-/\pi^-$ and $\bar{p}/\pi^-$ ratios as function of the charged hadron multiplicity. Open symbols are for pp, and filled ones are for Au+Au data. (c) Mid-rapidity $K^-/\pi^-$ ratio as function of $\frac{(dN/dy)_{\pi}}{S}$. Systematic errors are shown for STAR data, and statistical errors for other data.

Mean transverse momentum of negative particles and (b) $K^-/\pi^-$ and $\bar{p}/\pi^-$ ratios as function of the charged hadron multiplicity. Open symbols are for pp, and filled ones are for Au+Au data. (c) Mid-rapidity $K^-/\pi^-$ ratio as function of $\frac{(dN/dy)_{\pi}}{S}$. Systematic errors are shown for STAR data, and statistical errors for other data.

Mean transverse momentum of negative particles and (b) $K^-/\pi^-$ and $\bar{p}/\pi^-$ ratios as function of the charged hadron multiplicity. Open symbols are for pp, and filled ones are for Au+Au data. (c) Mid-rapidity $K^-/\pi^-$ ratio as function of $\frac{(dN/dy)_{\pi}}{S}$. Systematic errors are shown for STAR data, and statistical errors for other data.

Mean transverse momentum of negative particles and (b) $K^-/\pi^-$ and $\bar{p}/\pi^-$ ratios as function of the charged hadron multiplicity. Open symbols are for pp, and filled ones are for Au+Au data. (c) Mid-rapidity $K^-/\pi^-$ ratio as function of $\frac{(dN/dy)_{\pi}}{S}$. Systematic errors are shown for STAR data, and statistical errors for other data.

Mean transverse momentum of negative particles and (b) $K^-/\pi^-$ and $\bar{p}/\pi^-$ ratios as function of the charged hadron multiplicity. Open symbols are for pp, and filled ones are for Au+Au data. (c) Mid-rapidity $K^-/\pi^-$ ratio as function of $\frac{(dN/dy)_{\pi}}{S}$. Systematic errors are shown for STAR data, and statistical errors for other data.

Mean transverse momentum of negative particles and (b) $K^-/\pi^-$ and $\bar{p}/\pi^-$ ratios as function of the charged hadron multiplicity. Open symbols are for pp, and filled ones are for Au+Au data. (c) Mid-rapidity $K^-/\pi^-$ ratio as function of $\frac{(dN/dy)_{\pi}}{S}$. Systematic errors are shown for STAR data, and statistical errors for other data.

$\frac{(dN/dy)_{\pi}}{S}$ (stars), $T_{ch}$ (circles) and $T_{kin}$ (triangles) and (b) $<\beta>$ as a function of the charged hadron multiplicity. Errors are systematic.

$\frac{(dN/dy)_{\pi}}{S}$ (stars), $T_{ch}$ (circles) and $T_{kin}$ (triangles) and (b) $<\beta>$ as a function of the charged hadron multiplicity. Errors are systematic.