Data corrected for finite acceptance and resolution of the detector and for intial state photon radiation. No corrections for hadronic effects are applied.. Errors include statistical and systematic uncertainties, added in quadrature.

Data corrected for finite acceptance and resolution of the detector and for intial state photon radiation. No corrections for hadronic effects are applied.. Errors include statistical and systematic uncertainties, added in quadrature.

Data corrected for finite acceptance and resolution of the detector and for intial state photon radiation. No corrections for hadronic effects are applied.. Errors include statistical and systematic uncertainties, added in quadrature.. YCUT is the cut off value used to define the jets in this case using the 'Durham' scheme.

Data corrected for finite acceptance and resolution of the detector and for intial state photon radiation. No corrections for hadronic effects are applied.. Errors include statistical and systematic uncertainties, added in quadrature.. YCUT is the cut off value used to define the jets in this case using the 'Durham' scheme.. D2 is the differential jet rate.

PION FRACTIONS IDENTIFIED BY HADRON ARM TOF COUNTERS (HATOF). ERRORS SHOWN ARE STATISTICAL ONLY.

PION FRACTIONS IDENTIFIED BY HADRON ARM TOF COUNTERS (HATOF). ERRORS SHOWN ARE STATISTICAL ONLY.

PION FRACTIONS IDENTIFIED BY CERENKOV COUNTERS. ERRORS SHOWN ARE STATISTICAL ONLY.

PION FRACTIONS IDENTIFIED BY CERENKOV COUNTERS. ERRORS SHOWN ARE STATISTICAL ONLY.

PION FRACTIONS IDENTIFIED BY CERENKOV COUNTERS. ERRORS SHOWN ARE STATISTICAL ONLY.

SCALED CROSS SECTIONS FROM ITOF DATA. ERRORS INCLUDE ALL STATISTICAL AND SYSTEMATIC ERRORS EXCEPT THE OVERALL NORMALIZATION UNCERTAINTY.

SCALED CROSS SECTIONS FROM ITOF DATA. ERRORS INCLUDE ALL STATISTICAL AND SYSTEMATIC ERRORS EXCEPT THE OVERALL NORMALIZATION UNCERTAINTY.

SCALED CROSS SECTIONS FROM ITOF DATA. ERRORS INCLUDE ALL STATISTICAL AND SYSTEMATIC ERRORS EXCEPT THE OVERALL NORMALIZATION UNCERTAINTY.

SCALED CROSS SECTIONS FROM HATOF DATA. ERRORS INCLUDE ALL STATISTICAL AND SYSTEMATIC ERRORS EXCEPT THE OVERALL NORMALIZATION UNCERTAINTY.

SCALED CROSS SECTIONS FROM HATOF DATA. ERRORS INCLUDE ALL STATISTICAL AND SYSTEMATIC ERRORS EXCEPT THE OVERALL NORMALIZATION UNCERTAINTY.

SCALED CROSS SECTIONS FROM CERENKOV DATA. ERRORS INCLUDE ALL STATISTICAL AND SYSTEMATIC ERRORS EXCEPT THE OVERALL NORMALIZATION UNCERTAINTY.

SCALED CROSS SECTIONS FROM CERENKOV DATA. ERRORS INCLUDE ALL STATISTICAL AND SYSTEMATIC ERRORS EXCEPT THE OVERALL NORMALIZATION UNCERTAINTY.

SCALED CROSS SECTIONS FROM CERENKOV DATA. ERRORS INCLUDE ALL STATISTICAL AND SYSTEMATIC ERRORS EXCEPT THE OVERALL NORMALIZATION UNCERTAINTY.

Inclusive dijet cross section for a lower ET cut off of (5+4) GeV for the highest ET jet.

Inclusive dijet cross section for a lower ET cut off of (5+7) GeV for the highest ET jet.

Inclusive dijet cross section averaged over the indicated Q**2 at ET(MAX) for a lower cut off of ET (5+2) GeV for the highest ET jet.

Inclusive dijet cross section averaged over the indicated regions of X, Q**2 and ABS(DETARAP) for a lower cut off of ET (5+2) GeV for the highest ET jet.

The dijet rate averaged over the indicated regions of Q**2 and X for a lower ET cut off of (5+0) GeV for the highest ET jet.

The dijet rate averaged over the indicated regions of Q**2 and X for a lower ET cut off of (5+1) GeV for the highest ET jet.

The dijet rate averaged over the indicated regions of Q**2 and X for a lower ET cut off of (5+2) GeV for the highest ET jet.

The dijet rate averaged over the indicated regions of Q**2 and X for a lower ET cut off of (5+4) GeV for the highest ET jet.

The dijet rate averaged over the indicated regions of Q**2 and X for a lower ET cut off of (5+7) GeV for the highest ET jet.

Dijet rate averaged over the indicated regions of Q**2, X and ET(MAX) for alower ET cut off of (5+2) GeV for the highest ET jet.

Dijet rate averaged over the indicated regions of Q**2, X and DETARAP for alower ET cut off of (5+2) GeV for the highest ET jet.

Measured ratio of the number of dijets with azimuthal separation < 120 degrees to the total number of dijet events.

The $v_{dyn}$ and the three terms of $v_{dyn}$ vs $\sqrt{\langle N_{ch}\rangle \langle N_{\gamma}\rangle }$ for mixed events. $Corr_{\gamma\,-ch}^{real}$ is plotted.

The $v_{dyn}$ and the three terms of $v_{dyn}$ vs $\sqrt{\langle N_{ch}\rangle \langle N_{\gamma}\rangle }$ for mixed events. $Corr_{\gamma\,-ch}^{mixed}$ is plotted.

The $v_{dyn}$ and the three terms of $v_{dyn}$ vs $\sqrt{\langle N_{ch}\rangle \langle N_{\gamma}\rangle }$ for mixed events. $\omega_{\gamma}^{real}$ is plotted.

The $v_{dyn}$ and the three terms of $v_{dyn}$ vs $\sqrt{\langle N_{ch}\rangle \langle N_{\gamma}\rangle }$ for mixed events. $\omega_{\gamma}^{mixed}$ is plotted.

The $v_{dyn}$ and the three terms of $v_{dyn}$ vs $\sqrt{\langle N_{ch}\rangle \langle N_{\gamma}\rangle }$ for mixed events. $v_{dyn}^{real}$ is plotted.

The $v_{dyn}$ and the three terms of $v_{dyn}$ vs $\sqrt{\langle N_{ch}\rangle \langle N_{\gamma}\rangle }$ for mixed events. $v_{dyn}^{mixed}$ is plotted.

The values of the observable $v_{dyn}^{ch-\gamma}$ for the same side.

The values of the observable $v_{dyn}^{ch-\gamma}$ for the same side.

The values of the observable $v_{dyn}^{ch-\gamma}$ for the away-side.

The values of the observable $v_{dyn}^{ch-\gamma}$ for the away-side.

The correlation between positive and negative charged particles measured by the FTPC and photons measured by the PMD using $v_{dyn}$ for real events.

$r_{m,1}$ vs multiplicity for first order of m.

$r_{m,1}$ vs multiplicity for first order of m.

$r_{m,1}$ vs multiplicity for second order of m.

$r_{m,1}$ vs multiplicity for second order of m.

$r_{m,1}$ vs multiplicity for third order of m.

$r_{m,1}$ vs multiplicity for third order of m.

The moments $r_{m,1}$(m=1-3) for real and mixed events as a function of order m in a fixed multiplicity bin of 47$\langle \sqrt{\langle N_{ch}\rangle \langle N_{\gamma}\rangle }\langle 54$.

INTEGRATION OVER RESTRICTED X RANGE.

EXTRAPOLATION BELOW X=0.1 AND ABOVE X=0.7.

No description provided.

No description provided.

No description provided.

No description provided.

No description provided.

Transverse mass $m_T$ spectrum at midrapidity of $\phi$ mesons produced in minimum bias p+p collisions at beam momentum of 158 GeV/c. $m_0$ is the PDG mass of the $\phi$ meson.

Transverse mass $m_T$ spectrum at midrapidity of $\phi$ mesons produced in minimum bias p+p collisions at beam momentum of 80 GeV/c. $m_0$ is the PDG mass of the $\phi$ meson.

Dependence of the slope parameter $T$ of the transverse momentum spectrum on rapidity $y$, of $\phi$ mesons produced in minimum bias p+p collisions at beam momentum of 158 GeV/c.

Dependence of the slope parameter $T$ of the transverse momentum spectrum on rapidity $y$, of $\phi$ mesons produced in minimum bias p+p collisions at beam momentum of 80 GeV/c.

Dependence of the width $\sigma_y$ of the rapidity distributions on $p_T$, of $\phi$ mesons produced in minimum bias p+p collisions at beam momentum of 158 GeV/c.

Dependence of the width $\sigma_y$ of the rapidity distributions on $p_T$, of $\phi$ mesons produced in minimum bias p+p collisions at beam momentum of 80 GeV/c.

Rapidity spectrum of $\phi$ mesons produced in minimum bias p+p collisions at beam momentum of 158 GeV/c.

Rapidity spectrum of $\phi$ mesons produced in minimum bias p+p collisions at beam momentum of 80 GeV/c.

Rapidity spectrum of $\phi$ mesons produced in minimum bias p+p collisions at beam momentum of 40 GeV/c.

Energy dependence of ratios of total yields of $\phi$ mesons to mean total yields of pions produced in in minimum bias p+p collisions at CERN SPS energies.

Energy dependence of double ratios of total yields of $\phi$ mesons to mean total yields of pions in central Pb+Pb collisions over minimum bias p+p collisions at CERN SPS energies.

Energy dependence of total yields of $\phi$ mesons produced in minimum bias p+p collisions at CERN SPS energies.

Energy dependence of midrapidity yields of $\phi$ mesons produced in minimum bias p+p collisions at CERN SPS energies.

Widths of rapidity distributions of $\phi$ mesons produced in minimum bias p+p collisions at CERN SPS energies, as a function of beam rapidity.

Mean $p_T$, leading in-jet charged particle.

Mean $p_T$, charged particle jets, $p^{ch.jet}_T > 5$ GeV, $|\eta^{ch.jet}| < 1.9$.

Charged jet rate, $p^\text{ch.jet}_T > 5$ GeV, $|\eta^{ch.jet}| < 1.9$.

Charged jet rate, $p^\text{ch.jet}_T > 30$ GeV, $|\eta^{ch.jet}| < 1.9$.

Jet $p_T$ spectrum, $|\eta^{ch.jet}| < 1.9$, $10 < N_\text{ch} \le 30$.

Jet $p_T$ spectrum, $|\eta^{ch.jet}| < 1.9$, $30 < N_\text{ch} \le 50$.

Jet $p_T$ spectrum, $|\eta^{ch.jet}| < 1.9$, $50 < N_\text{ch} \le 80$.

Jet $p_T$ spectrum, $|\eta^{ch.jet}| < 1.9$, $80 < N_\text{ch} \le 110$.

Jet $p_T$ spectrum, $|\eta^{ch.jet}| < 1.9$, $110 < N_\text{ch} \le 140$.

Intrajet ring $p_{T}$ density, $10 < N_\text{ch} \le 30$.

Intrajet ring $p_{T}$ density, $30 < N_\text{ch} \le 50$.

Intrajet ring $p_{T}$ density, $50 < N_\text{ch} \le 80$.

Intrajet ring $p_{T}$ density, $80 < N_\text{ch} \le 110$.

Intrajet ring $p_{T}$ density, $110 < N_\text{ch} \le 140$.

Scaled energy distribution of charged hadrons produced in Gluon jets in 'Mercedes' topology 3-JET events.

Subjet multiplicity-1 as a function of the jet resolution parameter ycut for Quark jets in 'Y' topology events.

Subjet multiplicity-1 as a function of the jet resolution parameter ycut for Gluon jets in 'Y' topology events.

Ratio of the sub-jet multiplicity-1 for gluon jets to the sub-jet multiplicity-1 for quark jets as a function of the jet resolution parameter ycut in 'Y' topology events.

Total 1-jet rate for Quark jets as a function of the jet resolution parameter ycut in 'Y' topology events.

Total 1-jet rate for Gluon jets as a function of the jet resolution parameter ycut in 'Y' topology events.

Differential 1-jet rate for Quark jets as a function of the jet resolution parameter ycut in 'Y' topology events.

Differential 1-jet rate for Gluon jets as a function of the jet resolution parameter ycut in 'Y' topology events.

Splitting Function for Quark jets as a function of the jet resolution parameter ycut in 'Y' topology events.

Splitting Function for Gluon jets as a function of the jet resolution parameter ycut in 'Y' topology events.

Ratio of Splitting Functions for Gluon jets and Quark jets as a function ofthe jet resolution parameter ycut in 'Y' topology events.