$\sqrt{s_{NN}}$ dependence of $<p_t>$ fluctuations for central collisions and STAR full acceptance. CERES fluctuation data (12.3 and 17.3 GeV) were linearly extrapolated to the STAR $\eta$ acceptance

Hijing-1.37 $<p_t>$ fluctuations for central collisions and the STAR acceptance at three energies, for quench-on, quench-off and jets-off collisions.

Correlation function, C(q) for $\pi^+\pi^+$ and $\pi^-\pi^-$ pairs.

Correlation function, C(q) for $\pi^+\pi^+$ and $\pi^-\pi^-$ pairs.

Correlation function, C(q) for $\pi^+\pi^+$ and $\pi^-\pi^-$ pairs.

Correlation functions, C(q), for $\pi^+\pi^+$ and $\pi^-\pi^-$ pairs.

Correlation functions, C(q), for $\pi^+\pi^+$ and $\pi^-\pi^-$ pairs.

Correlation functions, C(q), for $\pi^+\pi^+$ and $\pi^-\pi^-$ pairs.

Correlation functions, C(q), for $\pi^+\pi^+$ and $\pi^-\pi^-$ pairs.

Correlation functions, C(q), for $\pi^+\pi^+$ and $\pi^-\pi^-$ pairs.

Correlation functions, C(q), for $\pi^+\pi^+$ and $\pi^-\pi^-$ pairs.

Correlation functions, C(q), for $\pi^+\pi^+$ and $\pi^-\pi^-$ pairs.

Correlation functions, C(q), for $\pi^+\pi^+$ and $\pi^-\pi^-$ pairs.

$k_T$ dependence of extracted spheroidal source parameters for pion source functions (a) $R_T$ , (b) $a$, and (c) $\lambda$ for most central collisions & perhipheral collisions.

$k_T$ dependence of extracted spheroidal source parameters for pion source functions (a) $R_T$ , (b) $a$, and (c) $\lambda$ for most central collisions & perhipheral collisions.

$k_T$ dependence of extracted spheroidal source parameters for pion source functions (a) $R_T$ , (b) $a$, and (c) $\lambda$ for most central collisions & perhipheral collisions.

Measured widths of the near- and away-angle $\pi^0$ - $h^{\pm}$ correlation peaks for various trigger momenta.

Measured widths of the near- and away-angle $\pi^0$ - $h^{\pm}$ correlation peaks for various trigger momenta.

Measured widths of the near- and away-angle $\pi^0$ - $h^{\pm}$ correlation peaks for various trigger momenta.

The $\sigma_N$ and $\sigma_A$ values in GeV/$c$.

The $\sqrt{<p^2_{out}>}$ values in GeV/$c$.

The $\sqrt{<p^2_{out}>}$ values in GeV/$c$.

The $\sqrt{<p^2_{out}>}$ values in GeV/$c$.

The near and away side conditional yield per number of triggers for 1.4 < $p_{Ta}$ < 5.0 GeV/$c$.

The $\sqrt{<j^2_T>}$ values in GeV/$c$.

The $\sqrt{<j^2_T>}$ values in GeV/$c$.

The $\sqrt{<j^2_T>}$ values in GeV/$c$.

The $\sqrt{<j^2_T>}$ values in GeV/$c$.

Measured $x_E$ distributions associated with various transverse momenta of the trigger $\pi^0$.

Measured $x_E$ distributions associated with various transverse momenta of the trigger $\pi^0$.

Measured $x_E$ distributions associated with various transverse momenta of the trigger $\pi^0$.

Measured $x_E$ distributions associated with various transverse momenta of the trigger $\pi^0$.

Measured $x_E$ distributions associated with various transverse momenta of the trigger $\pi^0$.

Extracted values of $D(x)$ parameters according from the fit to the LEP data and power $n$ of the unmeasured final state parton spectra $\Sigma_q(\bar{p_T})$ extracted from the fit to the single inclusive $\pi^0$ invariant cross section for corresponding fragmentation and fixed values of $\sqrt{<k^2_T>}$ = 2.5 GeV/$c$.

The $\bar{x^-1_h}$ $<z_t>$ $\sqrt{<k^2_T>}$ $\sqrt{<k^2_T>}$ values as a function of $p_{Ta}$ for two different trigger $\pi^0$ transverse momentum bins.

The $\bar{x^-1_h}$ $<z_t>$ $\sqrt{<k^2_T>}$ $\sqrt{<k^2_T>}$ values as a function of $p_{Ta}$ for two different trigger $\pi^0$ transverse momentum bins.

Values of $\bar{x^-1_h}$ $<z_t>$ $\sqrt{<k^2_T>}$ and $\sqrt{<k^2_T>}$ for various trigger particle $p_{Tt}$ and associated momenta in 1.4 < $p_{Ta}$ < 5.0 GeV/$c$ region.

The $<z_t>$ and $\bar{x_h}$ values with $p_{Tt}$

The $<z_t>$ and $\bar{x_h}$ values with $p_{Ta}$ for two trigger $\pi^0$ momenta bins.

The $<z_t>$ and $\bar{x_h}$ values with $p_{Ta}$ for two trigger $\pi^0$ momenta bins.

Mean value of the event shape variable C-PARAM.

Mean value of the event shape variable 1-THRUST(C=G).

Mean value of the event shape variable B(C=G).

Differential distribution for event shape RHO**2 corrected to the hadron level for the Q**2 range 80 TO 160 GeV**2.

Differential distribution for event shape RHO**2 corrected to the hadron level for the Q**2 range 160 TO 320 GeV**2.

Differential distribution for event shape RHO**2 corrected to the hadron level for the Q**2 range 320 TO 640 GeV**2.

Differential distribution for event shape RHO**2 corrected to the hadron level for the Q**2 range 640 TO 1280 GeV**2.

Differential distribution for event shape RHO**2 corrected to the hadron level for the Q**2 range 1280 TO 2560 GeV**2.

Differential distribution for event shape RHO**2 corrected to the hadron level for the Q**2 range 2560 TO 5120 GeV**2.

Differential distribution for event shape RHO**2 corrected to the hadron level for the Q**2 range 5120 TO 10240 GeV**2.

Differential distribution for event shape RHO**2 corrected to the hadron level for the Q**2 range 10240 TO 20480 GeV**2.

Differential distribution for event shape C-PARAM corrected to the hadron level for the Q**2 range 80 TO 160 GeV**2.

Differential distribution for event shape C-PARAM corrected to the hadron level for the Q**2 range 160 TO 320 GeV**2.

Differential distribution for event shape C-PARAM corrected to the hadron level for the Q**2 range 320 TO 640 GeV**2.

Differential distribution for event shape C-PARAM corrected to the hadron level for the Q**2 range 640 TO 1280 GeV**2.

Differential distribution for event shape C-PARAM corrected to the hadron level for the Q**2 range 1280 TO 2560 GeV**2.

Differential distribution for event shape C-PARAM corrected to the hadron level for the Q**2 range 2560 TO 5120 GeV**2.

Differential distribution for event shape C-PARAM corrected to the hadron level for the Q**2 range 5120 TO 10240 GeV**2.

Differential distribution for event shape C-PARAM corrected to the hadron level for the Q**2 range 10240 TO 20480 GeV**2.

Differential distribution for event shape THRUST(C=T) corrected to the hadron level for the Q**2 range 80 TO 160 GeV**2.

Differential distribution for event shape THRUST(C=T) corrected to the hadron level for the Q**2 range 160 TO 320 GeV**2.

Differential distribution for event shape THRUST(C=T) corrected to the hadron level for the Q**2 range 320 TO 640 GeV**2.

Differential distribution for event shape THRUST(C=T) corrected to the hadron level for the Q**2 range 640 TO 1280 GeV**2.

Differential distribution for event shape THRUST(C=T) corrected to the hadron level for the Q**2 range 1280 TO 2560 GeV**2.

Differential distribution for event shape THRUST(C=T) corrected to the hadron level for the Q**2 range 2560 TO 5120 GeV**2.

Differential distribution for event shape THRUST(C=T) corrected to the hadron level for the Q**2 range 5120 TO 10240 GeV**2.

Differential distribution for event shape THRUST(C=T) corrected to the hadron level for the Q**2 range 10240 TO 20480 GeV**2.

Differential distribution for event shape B(C=T) corrected to the hadron level for the Q**2 range 80 TO 160 GeV**2.

Differential distribution for event shape B(C=T) corrected to the hadron level for the Q**2 range 160 TO 320 GeV**2.

Differential distribution for event shape B(C=T) corrected to the hadron level for the Q**2 range 320 TO 640 GeV**2.

Differential distribution for event shape B(C=T) corrected to the hadron level for the Q**2 range 640 TO 1280 GeV**2.

Differential distribution for event shape B(C=T) corrected to the hadron level for the Q**2 range 1280 TO 2560 GeV**2.

Differential distribution for event shape B(C=T) corrected to the hadron level for the Q**2 range 2560 TO 5120 GeV**2.

Differential distribution for event shape B(C=T) corrected to the hadron level for the Q**2 range 5120 TO 10240 GeV**2.

Differential distribution for event shape B(C=T) corrected to the hadron level for the Q**2 range 10240 TO 20480 GeV**2.

Differential distribution for event shape THRUST(C=G) corrected to the hadron level for the Q**2 range 80 TO 160 GeV**2.

Differential distribution for event shape THRUST(C=G) corrected to the hadron level for the Q**2 range 160 TO 320 GeV**2.

Differential distribution for event shape THRUST(C=G) corrected to the hadron level for the Q**2 range 320 TO 640 GeV**2.

Differential distribution for event shape THRUST(C=G) corrected to the hadron level for the Q**2 range 640 TO 1280 GeV**2.

Differential distribution for event shape THRUST(C=G) corrected to the hadron level for the Q**2 range 1280 TO 2560 GeV**2.

Differential distribution for event shape THRUST(C=G) corrected to the hadron level for the Q**2 range 2560 TO 5120 GeV**2.

Differential distribution for event shape THRUST(C=G) corrected to the hadron level for the Q**2 range 5120 TO 10240 GeV**2.

Differential distribution for event shape THRUST(C=G) corrected to the hadron level for the Q**2 range 10240 TO 20480 GeV**2.

Differential distribution for event shape B(C=G) corrected to the hadron level for the Q**2 range 80 TO 160 GeV**2.

Differential distribution for event shape B(C=G) corrected to the hadron level for the Q**2 range 160 TO 320 GeV**2.

Differential distribution for event shape B(C=G) corrected to the hadron level for the Q**2 range 320 TO 640 GeV**2.

Differential distribution for event shape B(C=G) corrected to the hadron level for the Q**2 range 640 TO 1280 GeV**2.

Differential distribution for event shape B(C=G) corrected to the hadron level for the Q**2 range 1280 TO 2560 GeV**2.

Differential distribution for event shape B(C=G) corrected to the hadron level for the Q**2 range 2560 TO 5120 GeV**2.

Differential distribution for event shape B(C=G) corrected to the hadron level for the Q**2 range 5120 TO 10240 GeV**2.

Differential distribution for event shape B(C=G) corrected to the hadron level for the Q**2 range 10240 TO 20480 GeV**2.

Differential distribution for event shape Y2 corrected to the hadron level for the Q**2 range 80 TO 160 GeV**2.

Differential distribution for event shape Y2 corrected to the hadron level for the Q**2 range 160 TO 320 GeV**2.

Differential distribution for event shape Y2 corrected to the hadron level for the Q**2 range 320 TO 640 GeV**2.

Differential distribution for event shape Y2 corrected to the hadron level for the Q**2 range 640 TO 1280 GeV**2.

Differential distribution for event shape Y2 corrected to the hadron level for the Q**2 range 1280 TO 2560 GeV**2.

Differential distribution for event shape Y2 corrected to the hadron level for the Q**2 range 2560 TO 5120 GeV**2.

Differential distribution for event shape Y2 corrected to the hadron level for the Q**2 range 5120 TO 10240 GeV**2.

Differential distribution for event shape Y2 corrected to the hadron level for the Q**2 range 10240 TO 20480 GeV**2.

Differential distribution for event shape (KOUT/Q) corrected to the hadron level for the Q**2 range 80 TO 160 GeV**2.

Differential distribution for event shape (KOUT/Q) corrected to the hadron level for the Q**2 range 160 TO 320 GeV**2.

Differential distribution for event shape (KOUT/Q) corrected to the hadron level for the Q**2 range 320 TO 640 GeV**2.

Differential distribution for event shape (KOUT/Q) corrected to the hadron level for the Q**2 range 640 TO 1280 GeV**2.

Differential distribution for event shape (KOUT/Q) corrected to the hadron level for the Q**2 range 1280 TO 2560 GeV**2.

Differential distribution for event shape (KOUT/Q) corrected to the hadron level for the Q**2 range 2560 TO 5120 GeV**2.

Differential distribution for event shape (KOUT/Q) corrected to the hadron level for the Q**2 range 5120 TO 10240 GeV**2.

Differential cross section as a function of the proton momentum in the P-P rest frame.

Polar angle distribution of the PHI-meson in the overall CMS system.

Angular distribution of the proton in the rest system of the final protons w.r.t. the beam.

Angular distribution of the proton in the rest system of the final protons w.r.t. the direction of the PHI-meson momentum.

Measured value of SIG(C=LTP) as a function of the pion angle relative to the virtual photon direction.

Unpolarized cross sections as a function of the azimuthal pion angle relative to the virtual photon direction from which the extracted results were taken (to be published).

Unpolarized cross sections as a function of the azimuthal pion angle relative to the virtual photon direction from which the extracted results were taken (to be published).

Unpolarized cross sections as a function of the azimuthal pion angle relative to the virtual photon direction from which the extracted results were taken (to be published).

Trigger-normalized fragment distribution $D(z_T)$ with $8 < p_T^{trig} < 15$ GeV/c for near-side ($|\Delta\phi-\pi|$<0.63) correlations in Au+Au collisions at 200 GeV.

Trigger-normalized fragment distribution $D(z_T)$ with $8 < p_T^{trig} < 15$ GeV/c for away-side ($|\Delta\phi-\pi|$<0.63) correlations in d+Au and Au+Au collisions at 200 GeV.

Differential cross section as a function of transverse momentum (PT) for PHI production.

Total cross section for OMEGA production over the defined kinematic range.

Total cross section for PHI production over the defined kinematic range.

Nuclear mass number dependency (A dependency) for OMEGA production.

Nuclear mass number dependency (A dependency) for PHI production.

Bin averaged cross sections for dijet photoproduction in intervals of XP for different X(C=GAMMA) and ETARAP ranges.

Bin averaged cross sections for dijet photoproduction in intervals of XP for different X(C=GAMMA) and ETARAP ranges.

Bin averaged cross sections for dijet photoproduction in intervals of XP for different X(C=GAMMA) and ETARAP ranges.

Bin averaged cross sections for dijet photoproduction in intervals of XP for different X(C=GAMMA) and ETARAP ranges.

Bin averaged cross sections for dijet photoproduction in intervals of XP for different X(C=GAMMA) and ETARAP ranges.

Bin averaged cross sections for dijet photoproduction in intervals of XP for different X(C=GAMMA) and ETARAP ranges.

Bin averaged cross sections for dijet photoproduction in intervals of ET(MAX) for different X(C=GAMMA) and ETARAP ranges.

Bin averaged cross sections for dijet photoproduction in intervals of ET(MAX) for different X(C=GAMMA) and ETARAP ranges.

Bin averaged cross sections for dijet photoproduction in intervals of ET(MAX) for different X(C=GAMMA) and ETARAP ranges.

Bin averaged cross sections for dijet photoproduction in intervals of ET(MAX) for different X(C=GAMMA) and ETARAP ranges.

Bin averaged cross sections for dijet photoproduction in intervals of ET(MAX) for different X(C=GAMMA) and ETARAP ranges.

Bin averaged cross sections for dijet photoproduction in intervals of ET(MAX) for different X(C=GAMMA) and ETARAP ranges.