Measured cross sections for isolated-photon plus 1jet production as a function of $|\cos\theta^{\star}|$.

Measured cross sections for isolated-photon plus 1jet production as a function of $|\cos\theta^{\star}|$ for the range $467 < m^{\gamma-\rm jet1} < 510$ GeV.

Measured cross sections for isolated-photon plus 1jet production as a function of $|\cos\theta^{\star}|$ for the range $510 < m^{\gamma-\rm jet1} < 590$ GeV.

Measured cross sections for isolated-photon plus 1jet production as a function of $|\cos\theta^{\star}|$ for the range $590 < m^{\gamma-\rm jet1} < 670$ GeV.

Measured cross sections for isolated-photon plus 1jet production as a function of $|\cos\theta^{\star}|$ for the range $670 < m^{\gamma-\rm jet1} < 760$ GeV.

Measured cross sections for isolated-photon plus 1jet production as a function of $|\cos\theta^{\star}|$ for the range $760 < m^{\gamma-\rm jet1} < 850$ GeV.

Measured cross sections for isolated-photon plus 1jet production as a function of $|\cos\theta^{\star}|$ for the range $850 < m^{\gamma-\rm jet1} < 950$ GeV.

Measured cross sections for isolated-photon plus 1jet production as a function of $|\cos\theta^{\star}|$ for the range $0.95 < m^{\gamma-\rm jet1} < 1.05$ TeV.

Measured cross sections for isolated-photon plus 1jet production as a function of $|\cos\theta^{\star}|$ for the range $1.05 < m^{\gamma-\rm jet1} < 1.25$ TeV.

Measured cross sections for isolated-photon plus 1jet production as a function of $|\cos\theta^{\star}|$ for the range $1.25 < m^{\gamma-\rm jet1} < 2.45$ TeV.

Measured cross sections for isolated-photon plus 2jet production as a function of $E_{\rm T}^{\gamma}$.

Measured cross sections for isolated-photon plus 2jet production as a function of $p_{\rm T}^{\rm jet2}$.

Measured cross sections for isolated-photon plus 2jet production as a function of $\Delta\phi^{\rm \gamma-jet2}$.

Measured cross sections for isolated-photon plus 2jet production as a function of $\Delta\phi^{\rm jet1-jet2}$.

Measured cross sections for isolated-photon plus 2jet production as a function of $\Delta\phi^{\rm \gamma-jet2}$ for the range $130< E_{\rm T}^{\gamma} <300$ GeV.

Measured cross sections for isolated-photon plus 2jet production as a function of $\Delta\phi^{\rm \gamma-jet2}$ for the range $E_{\rm T}^{\gamma} >300$ GeV.

Measured cross sections for isolated-photon plus 2jet production as a function of $\Delta\phi^{\rm jet1-jet2}$ for the range $130< E_{\rm T}^{\gamma} <300$ GeV.

Measured cross sections for isolated-photon plus 2jet production as a function of $\Delta\phi^{\rm jet1-jet2}$ for the range $E_{\rm T}^{\gamma} >300$ GeV.

Measured cross sections for isolated-photon plus 2jet production as a function of $\beta^{\rm jet1}$.

Measured cross sections for isolated-photon plus 2jet production as a function of $\beta^{\gamma}$.

Ratio of measured cross sections for isolated-photon plus 2jet production as a function of $\beta$.

Measured cross sections for isolated-photon plus 3jet production as a function of $E_{\rm T}^{\gamma}$.

Measured cross sections for isolated-photon plus 3jet production as a function of $p_{\rm T}^{\rm jet3}$.

Measured cross sections for isolated-photon plus 3jet production as a function of $\Delta\phi^{\rm \gamma-jet3}$.

Measured cross sections for isolated-photon plus 3jet production as a function of $\Delta\phi^{\rm jet1-jet3}$.

Measured cross sections for isolated-photon plus 3jet production as a function of $\Delta\phi^{\rm jet2-jet3}$.

Measured cross sections for isolated-photon plus 3jet production as a function of $\Delta\phi^{\rm \gamma-jet3}$ for the range $130< E_{\rm T}^{\gamma} <300$ GeV.

Measured cross sections for isolated-photon plus 3jet production as a function of $\Delta\phi^{\rm \gamma-jet3}$ for the range $E_{\rm T}^{\gamma} >300$ GeV.

Measured cross sections for isolated-photon plus 3jet production as a function of $\Delta\phi^{\rm jet1-jet3}$ for the range $130< E_{\rm T}^{\gamma} <300$ GeV.

Measured cross sections for isolated-photon plus 3jet production as a function of $\Delta\phi^{\rm jet1-jet3}$ for the range $E_{\rm T}^{\gamma} >300$ GeV.

Measured cross sections for isolated-photon plus 3jet production as a function of $\Delta\phi^{\rm jet2-jet3}$ for the range $130< E_{\rm T}^{\gamma} <300$ GeV.

Measured cross sections for isolated-photon plus 3jet production as a function of $\Delta\phi^{\rm jet2-jet3}$ for the range $E_{\rm T}^{\gamma} >300$ GeV.

Experimental cross-section values per bin in PB for COS(THETA*(2GAMMA)).

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.

The dijet angular distributions as a function of the the dijet scattering angle for two XOBS(C=GAMMA) regions separating resolved and direct photon processes.

Acceptance corrected COS(THETA(XYZ=SH)) distribution for exclusive J/PSI photoproduction muon decay data. THETA(XYZ=SH) is the polar angle of the positively charged lepton in the helicity frame.

Acceptance corrected COS(THETA(XYZ=SH)) distribution for exclusive J/PSI photoproduction electron decay data. THETA(XYZ=SH) is the polar angle of the positively charged lepton in the helicity frame.

Acceptance corrected PHI(XYZ=SH)) distribution for exclusive J/PSI photoproduction muon decay data. PHI(XYZ=SH) is the azimuthal angle of the positively charged lepton in the helicity frame.

Acceptance corrected PHI(XYZ=SH)) distribution for exclusive J/PSI photoproduction electron decay data. PHI(XYZ=SH) is the azimuthal angle of the positively charged lepton in the helicity frame.

Spin density matrix elements from fits to the angular distributions.

Differential DSIG/DT distribution in various W bins for data from J/PSI muon decay.

Differential DSIG/DT distribution in various W bins for data from J/PSI electron decay.

Slope of the Pomeron trajectory obtained from fit to the DSIG/DT distribution of the form W**(4*SLOPE-1) from the J/PSI muon decay data.

Slope of the Pomeron trajectory obtained from fit to the DSIG/DT distribution of the form W**(4*SLOPE-1) from the J/PSI electron decay data.

Measured cross section as a function of ET(JET1) for X(C=GAMMA) > 0.75 for:. 0 < ETARAP(JET1) < 1. 0 < ETARAP(JET2) < 1.

Measured cross section as a function of ET(JET1) for X(C=GAMMA) > 0.75 for:. 1 < ETARAP(JET1) < 2.4. -1 < ETARAP(JET2) < 0.

Measured cross section as a function of ET(JET1) for X(C=GAMMA) > 0.75 for:. 1 < ETARAP(JET1) < 2.4. 0 < ETARAP(JET2) < 1.

Measured cross section as a function of ET(JET1) for X(C=GAMMA) > 0.75 for:. 1 < ETARAP(JET1) < 2.4. 1 < ETARAP(JET2) < 2.4.

Measured cross section as a function of ET(JET1) for X(C=GAMMA) < 0.75 for:. -1 < ETARAP(JET1) < 0. -1 < ETARAP(JET2) < 0.

Measured cross section as a function of ET(JET1) for X(C=GAMMA) < 0.75 for:. 0 < ETARAP(JET1) < 1. -1 < ETARAP(JET2) < 0.

Measured cross section as a function of ET(JET1) for X(C=GAMMA) < 0.75 for:. 0 < ETARAP(JET1) < 1. 0 < ETARAP(JET2) < 1.

Measured cross section as a function of ET(JET1) for X(C=GAMMA) < 0.75 for:. 1 < ETARAP(JET1) < 2.4. -1 < ETARAP(JET2) < 0.

Measured cross section as a function of ET(JET1) for X(C=GAMMA) < 0.75 for:. 1 < ETARAP(JET1) < 2.4. 0 < ETARAP(JET2) < 1.

Measured cross section as a function of ET(JET1) for X(C=GAMMA) < 0.75 for:. 1 < ETARAP(JET1) < 2.4. 1 < ETARAP(JET2) < 2.4.

Measured cross section as a function of ETARAP(JET2) for X(C=GAMMA) > 0.75 for:. -1 < ETARAP(JET1) < 0.

Measured cross section as a function of ETARAP(JET2) for X(C=GAMMA) > 0.75 for:. 0 < ETARAP(JET1) < 1.

Measured cross section as a function of ETARAP(JET2) for X(C=GAMMA) > 0.75 for:. 1 < ETARAP(JET1) < 2.4.

Measured cross section as a function of ETARAP(JET2) for X(C=GAMMA) < 0.75 for:. -1 < ETARAP(JET1) < 0.

Measured cross section as a function of ETARAP(JET2) for X(C=GAMMA) < 0.75 for:. 0 < ETARAP(JET1) < 1.

Measured cross section as a function of ETARAP(JET2) for X(C=GAMMA) < 0.75 for:. 1 < ETARAP(JET1) < 2.4.

Measured cross section as a function of X(C=GAMMA) for:. 14 < ET(JET1) < 17 GEV.

Measured cross section as a function of X(C=GAMMA) for:. 17 < ET(JET1) < 25 GEV.

No description provided.

Measured cross section as a function of X(C=GAMMA) for:. 25 < ET(JET1) < 35 GEV.

Measured cross section as a function of X(C=GAMMA) for:. 35 < ET(JET1) < 90 GEV.

The measured distribution in PHI(P=3).

The measured distribution of X(P=3).

The measured distribution of X(P=4).

Differential T distribution. Statistical errors only.

DSIG/DT distribution fit with the expression A*EXP(-B*ABS(T) + C*T**2).

SLOPE (B) of the DSIG/DT distribution keeping c fixed at 2.8 (see previous table).

DSIG/DT distribution fit with the expression A* EXP(-B*ABS(T) + C *T**2).

SLOPE (B) as a function of M(P=1_2) keeping C constant at 2.7 (see previoustable).

Acceptance corrected distribution of THETA, the polar angle of the decay ofthe PI+ in the RHO0 helicity frame where the RHO0 is at rest. THETA is defined as the angle between the direction opposite to that of the outgoing PROTON and the direction of the PI+. Statistical errors only.

Acceptance corrected PHI angular distribution, where PHI is angle between the decay plane and the RHO0 production plane. Stastistical errors only.

Result of two dimensional least-square fit to the accertance corrected angular distributions to give spin density matrices.

Spin density matrices as function of the two pion mass.

Spin density matrices as function of the two pion mass.

Spin density matrices as function of the two pion mass.

Spin density matrices as a function of M(P=1_2).

Spin density matrices as a function of M(P=1_2).

Spin density matrices as a function of M(P=1_2).

DSIG/DT distribution for the proton dissociative events tagged with the PRT1. Statistical errors only.

DSIG/DT distribution for the proton dissociative events tagged with the LPS(X<0.98). Statistical errors only.