The acceptance-corrected excess dielectron mass spectra, normalized to the charged particle multiplicity at mid-rapidity dNch/dy, in Au+Au collisions at $\sqrt{s_{NN}}$ = 19.6 GeV. The dNch/dy values in Au+Au collisions at $\sqrt{s_{NN}}$ = 19.6 GeV are from Ref. [38]. The normalization uncertainty from the STAR measured dN/dy is about 10%, which is not shown in the table.

The acceptance-corrected excess dielectron mass spectra, normalized to the charged particle multiplicity at mid-rapidity dNch/dy, in Au+Au collisions at $\sqrt{s_{NN}}$ = 200 GeV. The dNch/dy values in Au+Au collisions at $\sqrt{s_{NN}}$ = 200 GeV are from Ref. [39]. The normalization uncertainty from the STAR measured dN/dy is about 10%, which is not shown in the table.

Integrated yields of the normalized dilepton excesses for 0.4 < $M^{ll}$ < 0.75 GeV/c$^2$ as a function of dNch/dy. From top to bottom: 0-80% Au+Au collisions at $\sqrt{s_{NN}}$ = 19.6 GeV, then 0-10%, 10-40%, 40-80% and 0-80% Au+Au collisions at $\sqrt{s_{NN}}$ = 200 GeV.

Fit of elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\pi^{+}\pi^{-}$ photoproduction off protons with a Soeding-inspired analytic function --- statistical correlations only. Only one half of the (symmetric) matrix is stored.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\pi^{+}\pi^{-}$ photoproduction off protons, differential in the dipion mass and in bins of $W$. The tabulated cross sections are $\gamma p$ cross sections but can be converted to $ep$ cross sections using the effective photon flux $\Phi_{\gamma/e}$.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\pi^{+}\pi^{-}$ photoproduction off protons, differential in the dipion mass and in bins of $W$ --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction off protons, in bins of the photon-proton energy $W$. The cross section is defined as the integral of the relativistic Breit Wigner resonance in the dipion mass over the range $2m_\pi<m_{\pi\pi}<1.53$ GeV. The tabulated cross sections are $\gamma p$ cross sections but can be converted to $ep$ cross sections using the effective photon flux $\Phi_{\gamma/e}$.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction off protons in bins of the photon-proton energy $W$ --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

Fit of elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction cross sections off protons as a function of energy. Parameters with subscript "el" and "pd" correspond to elastic and proton-dissociative cross sections, respectively.

Fit of elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction cross sections off protons as a function of energy --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

Fit of elastic $\rho^0(770)$ photoproduction cross section off protons as a function of energy (various experiments)

Fit of elastic $\rho^0(770)$ photoproduction cross sections off protons as a function of energy (various experiments) --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\pi^{+}\pi^{-}$ photoproduction cross section off protons, double-differential in the dipion mass and the momentum transfer $\vert t\vert$. The tabulated cross sections are $\gamma p$ cross sections but can be converted to $ep$ cross sections using the effective photon flux $\Phi_{\gamma/e}$.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\pi^{+}\pi^{-}$ photoproduction cross section off protons, double-differential in the dipion mass and the momentum transfer $\vert t\vert$ --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction off protons, single-differential in the momentum transfer $\vert t\vert$. The cross section is defined as the integral of the relativistic Breit Wigner resonance in the dipion mass over the range $2m_\pi<m_{\pi\pi}<1.53$ GeV. The tabulated cross sections are $\gamma p$ cross sections but can be converted to $ep$ cross sections using the effective photon flux $\Phi_{\gamma/e}$.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction off protons, single differential in the momentum transfer $\vert t\vert$ --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

Fit of elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction single-differential cross sections off protons as a function of momentum transfer $t$. Parameters with subscript "el" and "pd" correspond to elastic and proton-dissociative cross sections, respectively.

Fit of elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction single-differential cross sections off protons as a function of momentum transfer $t$ --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\pi^{+}\pi^{-}$ photoproduction double-differenial cross section off protons, as a function of the dipion mass and the momentum transfer $\vert t\vert$, in bins of the photon-proton energy $W$ The tabulated cross sections are $\gamma p$ cross sections but can be converted to $ep$ cross sections using the effective photon flux $\Phi_{\gamma/e}$.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\pi^{+}\pi^{-}$ photoproduction double-differenial cross section off protons, as a function of the dipion mass and the momentum transfer $\vert t\vert$, in bins of the photon-proton energy $W$ --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction off protons, single-differential in the momentum transfer $\vert t\vert$, in bins of the photon-proton energy $W$. The cross section is defined as the integral of the relativistic Breit Wigner resonance in the dipion mass over the range $2m_\pi<m_{\pi\pi}<1.53$ GeV. The tabulated cross sections are $\gamma p$ cross sections but can be converted to $ep$ cross sections using the effective photon flux $\Phi_{\gamma/e}$.

Elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction cross section off protons, single differential in the momentum transfer $\vert t\vert$ and in bins of the photon-proton energy $W$ --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

Regge fit of elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction single-differential cross sections off protons as a function of momentum transfer $t$ and photon-proton energy $W$. Parameters with subscript "el" and "pd" correspond to elastic and proton-dissociative cross sections, respectively.

Regge fit of elastic ($m_Y=m_p$) and proton-dissociative ($1<m_Y<10$ GeV) $\rho^0(770)$ photoproduction single-differential cross sections off protons as a function of momentum transfer $t$ and photon-proton energy $W$ --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

Fit of $b$-slopes in elastic ($m_Y=m_p$) $\rho^0(770)$ photoproduction single-differential cross sections off protons as a function of momentum transfer $t$ in bins of photon-proton energy $W$.

Fit of $b$-slopes in elastic ($m_Y=m_p$) $\rho^0(770)$ photoproduction single-differential cross sections off protons as a function of momentum transfer $t$ in bins of photon-proton energy $W$ --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

Fit of Pomeron trajectories in elastic ($m_Y=m_p$) $\rho^0(770)$ photoproduction single-differential cross sections off protons as a function of momentum transfer $t$ in bins of photon-proton energy $W$.

Fit of Pomeron trajectories in elastic ($m_Y=m_p$) $\rho^0(770)$ photoproduction single-differential cross sections off protons as a function of momentum transfer $t$ in bins of photon-proton energy $W$ --- statistical correlations coefficients $\rho_{ij}$ only. Only one half of the (symmetric) matrix is stored. Bins are identified by their global bin number.

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ERRORS CONTAIN BOTH STATISTICS AND SYSTEMATICS.

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Normalised inclusive single-particle distributions of charged hadrons in different intervals of W and Q**2 with corresponding values of X(Bjorken). Additional systematic error of 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons in different intervals of W and Q**2 with corresponding values of X(Bjorken). Additional systematic error of 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons in different intervals of W and Q**2 with corresponding values of X(Bjorken). Additional systematic error of 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons in different intervals of W and Q**2 with corresponding values of X(Bjorken). Additional systematic error of 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons in different intervals of W and Q**2 with corresponding values of X(Bjorken). Additional systematic error of 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons in different intervals of W and Q**2 with corresponding values of X(Bjorken). Additional systematic error of 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons in different intervals of W and Q**2 with corresponding values of X(Bjorken). Additional systematic error of 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons in different intervals of W and Q**2 with corresponding values of X(Bjorken). Additional systematic error of 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons in different intervals of W and Q**2 with corresponding values of X(Bjorken). Additional systematic error of 4 PCT.

Additional inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of W. Additional systematic error 4 PCT.

Additional inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of W. Additional systematic error 4 PCT.

Additional inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of W. Additional systematic error 4 PCT.

Additional inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of W. Additional systematic error 4 PCT.

Additional inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of W. Additional systematic error 4 PCT.

Additional inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of W. Additional systematic error 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of Q**2. Additional systematic error 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of Q**2. Additional systematic error 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of Q**2. Additional systematic error 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of Q**2. Additional systematic error 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of Q**2. Additional systematic error 4 PCT.

Normalised inclusive single-particle distributions of charged hadrons as a function of XL and PT**2 in different intervals of Q**2. Additional systematic error 4 PCT.

Mean values of PT**2 in different XL intervals in different regions of W**2. Additional systematic error 2 PCT.

Mean values of PT**2 in different XL intervals in different Q**2 regions. Additional systematic error 2 PCT.

Mean value of PT**2 in different XL intervals in different intervals of W**2 and Q**2. Corresponding values of X(Bjorken) as shown. Additional systematic error 2 PCT.

Mean value of PT**2 in different XL intervals in different intervals of W**2 and Q**2. Corresponding values of X(Bjorken) as shown. Additional systematic error 2 PCT.

Mean value of PT**2 in different XL intervals in different intervals of W**2 and Q**2. Corresponding values of X(Bjorken) as shown. Additional systematic error 2 PCT.

Mean value of PT**2 in different XL intervals in different intervals of W**2 and Q**2. Corresponding values of X(Bjorken) as shown. Additional systematic error 2 PCT.

Mean value of PT**2 in different XL intervals in different intervals of W**2 and Q**2. Corresponding values of X(Bjorken) as shown. Additional systematic error 2 PCT.

Mean value of PT**2 in different XL intervals in different intervals of W**2 and Q**2. Corresponding values of X(Bjorken) as shown. Additional systematic error 2 PCT.

Average forward multipicities for positive, negative and all charged hadrons. Additional systematic error 1 PCT.

Average forward multipicities for positive, negative and all charged hadrons. Additional systematic error 1 PCT.

Average forward multipicities for positive, negative and all charged hadrons. Additional systematic error 1 PCT.

OBLATENESS AND THRUST DISTRIBUTIONS FOR SEPARATED JETS. SEE RED = 1145.

Transverse mass spectra for kaon production in the central rapidity region for collisions at 20 GeV per nucleon.

Transverse mass spectra for kaon production in the central rapidity region for collisions at 30 GeV per nucleon.

Rapidity distribution of PI- production.

Rapidity distribution of K- production.

Rapidity distribution of K+ production.

Energy dependence of the mean K+ to PI+ and K- to PI- multiplicity ratio with the full phase space.. The data below 6 GeV are from the AGS and above 100 GeV from RHIC.

Energy dependence of the mean K+ to PI+ and K- to PI- multiplicity ratio mid rapidity regions.. The data below 6 GeV are from the AGS and above 100 GeV from RHIC.

Energy dependence of the inverse slope parameter of the transverse mass spectra in K+ and K- production.. The data below 6 GeV are from the AGS and above 100 GeV from RHIC.

Energy dependence of the mean transverse mass measured at mid rapidity in PI+ and PI- production.. The data below 6 GeV are from the AGS and above 100 GeV from RHIC.

Energy dependence of the mean transverse mass measured at mid rapidity in K+ and K- production.. The data below 6 GeV are from the AGS and above 100 GeV from RHIC.