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.

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Single differential cross section DSIG/DX for a Q**2 cut of 10000 GeV**2 corrected to the electroweak Born level.

Systematic errors with bin to bin correlations for the cross section DSIG/DX with Q**2 > 200 GeV**2.

Systematic errors with bin to bin correlations for the cross section DSIG/DX with Q**2 > 10000 GeV**2.

Single differential cross section DSIG/DY for a Q**2 cut of 200 GeV**2 corrected to the electroweak Born level.

Systematic errors with bin to bin correlations for the cross section DSIG/DY with Q**2 > 200 GeV**2.

The reduced cross section SIG(C=RED) for Q**2 in the range 185 to 200 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 240 to 310 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 310 to 410 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 410 to 530 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 530 to 710 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 710 to 900 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 900 to 1300 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 1300 to 1800 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 1800 to 2500 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 2500 to 3500 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 3500 to 5600 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 5600 to 9000 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 9000 to 15000 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 15000 to 25000 GeV**2 corrected to the electroweak Born level.

The reduced cross section SIG(C=RED) for Q**2 in the range 25000 to 50000 GeV**2 corrected to the electroweak Born level.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

Systematic error with bin to bin correlation for the reduced cross sections.

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Data for the number of reconstructed photon conversions as a function of conversion location plots

Corrected photon spectra, pT

Corrected photon spectra, y

Data for the two-photon invariant mass plots

π0 transverse momentum spectra

π0 contribution in the photon spectra spectra

Cross sections for exclusive J/PSI production as a function of W in the Q**2 region 10 to 100 GeV**2.

Cross sections for exclusive J/PSI photoproduction as a function of W in the Q**2 region 0.15 to 0.18 GeV**2.

Cross sections for exclusive J/PSI photoproduction as a function of W in the Q**2 region 2 to 5 GeV**2.

Cross sections for exclusive J/PSI photoproduction as a function of W in the Q**2 region 5 to 10 GeV**2.

Cross sections for exclusive J/PSI photoproduction as a function of W in the Q**2 region 10 to 100 GeV**2.

Cross sections of exclusive J/PSI production as a function of Q**2 separating for the J/PSI --> E+ E- and MU+ MU- decay channels.

Cross sections of exclusive J/PSI photoproduction as a function of Q**2.

Cross sections for exclusive J/PSI photoproduction as a function of T in 4 Q**2 bins.

Parameters of fits to the W and Q**2 dependence of the exclusive J/PSI cross section.

Measured values of the differential cross section DSIG/DT as a function of W for T in the range 0.0 to 0.1 GeV**2.

Measured values of the differential cross section DSIG/DT as a function of W for T in the range 0.1 to 0.3 GeV**2.

Measured values of the differential cross section DSIG/DT as a function of W for T in the range 0.3 to 0.9 GeV**2.

Measured values of the differential cross section DSIG/DT as a function of W for T in the range 0.9 to 2.0 GeV**2.

Measured values of the Pomeron trajectory as a function of T in the Q**2 range 2 to 100 GeV**2.

Spin density matrices and ratio of cross sections of longitudinally and transversely polarized photons as a function of Q**2.

Spin density matrices and ratio of cross sections of longitudinally and transversely polarized photons as a function of W.

Spin density matrices and ratio of cross sections of longitudinally and transversely polarized photons as a function of T.

The measured dijet DSIG/DQ**2/DET distributions. Here ET(P=4) is the transverse energy of the highest transverse energy jet.

The measured dijet DSIG/DQ**2/DET distributions. Here ET(P=4) is the transverse energy of the highest transverse energy jet.

The measured dijet DSIG/DQ**2/DET distributions. Here ET(P=4) is the transverse energy of the highest transverse energy jet.

The measured dijet DSIG/DQ**2/DET distributions. Here ET(P=4) is the transverse energy of the highest transverse energy jet.

The measured dijet DSIG/DQ**2/DET distributions. Here ET(P=4) is the transverse energy of the highest transverse energy jet.

The measured dijet DSIG/DQ**2/DET distributions. Here ET(P=4) is the transverse energy of the highest transverse energy jet.

The measured dijet D2SIG/DQ**2/DETARAP distributions. Here ETARAP is the pseudorapidity of the highest transverse energy jet.

The measured dijet D2SIG/DQ**2/DETARAP distributions. Here ETARAP is the pseudorapidity of the highest transverse energy jet.

The measured dijet D2SIG/DQ**2/DETARAP distributions. Here ETARAP is the pseudorapidity of the highest transverse energy jet.

The measured dijet D2SIG/DQ**2/DETARAP distributions. Here ETARAP is the pseudorapidity of the highest transverse energy jet.

The measured dijet D2SIG/DQ**2/DETARAP distributions. Here ETARAP is the pseudorapidity of the highest transverse energy jet.

The measured dijet D2SIG/DQ**2/DETARAP distributions. Here ETARAP is the pseudorapidity of the highest transverse energy jet.

The measured dijet D2SIG/DQ**2/DETARAP distributions. Here ETARAP is the pseudorapidity of the highest transverse energy jet.

Measured ratio of the cross sections X(C=GAMMA) < 0.75 to X(C=GAMMA) > 0.75 in different regions of ET(C=MEAN)**2.

Measured ratio of the cross sections X(C=GAMMA) < 0.75 to X(C=GAMMA) > 0.75 in different regions of ET(C=MEAN)**2.

Measured ratio of the cross sections X(C=GAMMA) < 0.75 to X(C=GAMMA) > 0.75 in different regions of ET(C=MEAN)**2.

Measured mean integrated jet shape corrected to the hadron level in photoproduction with -1 < ETARAP(C=JET) < 2.5.

Measured mean integrated jet shape corrected to the hadron level in photoproduction with -1 < ETARAP(C=JET) < 2.5.

Measured mean integrated jet shape corrected to the hadron level in photoproduction with -1 < ETARAP(C=JET) < 2.5.

Measured mean integrated jet shape corrected to the hadron level and for electroweak radiative effects in DIS with ET(C=JET) > 17 GeV.

Measured mean integrated jet shape corrected to the hadron level and for electroweak radiative effects in DIS with ET(C=JET) > 17 GeV.

Measured mean integrated jet shape corrected to the hadron level and for electroweak radiative effects in DIS with -1 < ETARAP(C=JET) < 2.5.

Measured mean integrated jet shape corrected to the hadron level and for electroweak radiative effects in DIS with -1 < ETARAP(C=JET) < 2.5.

Measured mean integrated jet shape corrected to the hadron level and for electroweak radiative effects in DIS with -1 < ETARAP(C=JET) < 2.5.

Measured mean integrated jet shape corrected to the hadron level and for electroweak radiative effects in DIS with -1 < ETARAP(C=JET) < 2.5.

Measured mean subject multiplicity corrected to the hadron level for photoproduction with ET(C=JET) > 17 GeV.

Measured mean subject multiplicity corrected to the hadron level for photoproduction with ET(C=JET) > 17 GeV.

Measured mean subject multiplicity corrected to the hadron level and for photoproduction with ET(C=JET) > 17 GeV.

Measured mean subject multiplicity corrected to the hadron level and for photoproduction with ET(C=JET) > 17 GeV.

Measured mean subject multiplicity corrected to the hadron level and for photoproduction with ET(C=JET) > 17 GeV.

Measured mean subject multiplicity corrected to the hadron level and for photoproduction with ET(C=JET) > 17 GeV.

Measured differential cross section DSIG/DETARAP for inclusive jet photoproduction with ET(C=JET) > 17 GeV. Jets are divided into BROAD and NARROW jets according to their shape.

Measured differential cross section DSIG/DETARAP for inclusive jet photoproduction with ET(C=JET) > 17 GeV. Jets are divided into BROAD and NARROW jets according to their subject multiplicity.

Measured differential cross section DSIG/DETARAP for inclusive jet photoproduction with ET(C=JET) > 17 GeV. Jets are divided into BROAD and NARROW jets according to the combination of shape and subject multiplicity.

Measured differential cross section DSIG/DETARAP for inclusive jet production in DIS with ET(C=JET) > 17 GeV. Jets are divided into BROAD and NARROW jets according to their shape.

Measured differential cross section DSIG/DET for inclusive jet photoproduction with -1 < ETARAP(C=JET) < 2.5. Jets are divided into BROAD and NARROW jets according to their shape.

Measured differential cross section DSIG/DET for inclusive jet photoproduction with -1 < ETARAP(C=JET) < 2.5. Jets are divided into BROAD and NARROW jets according to their subject multiplicity.

Measured differential cross section DSIG/DET for inclusive jet photoproduction with -1 < ETARAP(C=JET) < 2.5. Jets are divided into BROAD and NARROW jets according to the combination of shape and subject multiplicity.

Measured differential cross section DSIG/DET for inclusive jet production in DIS with -1 < ETARAP(C=JET) < 2.5. Jets are divided into BROAD and NARROW jets according to their shape.

Measured differential dijet cross section DSIG/DCOS(THETA) in dijet photoproduction with M(C=2JET) > 52 GeV. The data are divided into BROAD-BROAD and NARROW-NARROW jets according to the jet shapes.

Measured differential dijet cross section DSIG/DCOS(THETA) in dijet photoproduction with M(C=2JET) > 52 GeV. The data are divided into BROAD-NARROW jets according to the jet shapes.

Measured differential cross section DSIG/DM for dijet photoproduction with ABS(COS(THETA)) < 0.8. The data are divided into BROAD-BROAD and NARROW-NARROW jets according to the jet shapes.

Measured differential cross section DSIG/DX(C=GAMMA) for dijet photoproduction. The data are divided into BROAD-BROAD and NARROW-NARROW jets according to the jet shapes.

Values of ALPHAS determined for the QCD fit of the measured mean PSI value at R = 0.5 as a function of ET(C=JET) in DIS events.