The neutral current reduced cross section at Q^2=90 GeV^2 for a proton energy of 460 GeV.

The neutral current reduced cross section at Q^2=120 GeV^2 for a proton energy of 460 GeV.

The neutral current reduced cross section at Q^2=150 GeV^2 for a proton energy of 460 GeV.

The neutral current reduced cross section at Q^2=200 GeV^2 for a proton energy of 460 GeV.

The neutral current reduced cross section at Q^2=250 GeV^2 for a proton energy of 460 GeV.

The neutral current reduced cross section at Q^2=300 GeV^2 for a proton energy of 460 GeV.

The neutral current reduced cross section at Q^2=400 GeV^2 for a proton energy of 460 GeV.

The neutral current reduced cross section at Q^2=500 GeV^2 for a proton energy of 460 GeV.

The neutral current reduced cross section at Q^2=650 GeV^2 for a proton energy of 460 GeV.

The neutral current reduced cross section at Q^2=800 GeV^2 for a proton energy of 460 GeV.

The neutral current reduced cross section at Q^2=35 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=45 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=60 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=90 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=120 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=150 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=200 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=250 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=300 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=400 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=500 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=650 GeV^2 for a proton energy of 575 GeV.

The neutral current reduced cross section at Q^2=800 GeV^2 for a proton energy of 575 GeV.

The proton structure functions FL and F2 measured at Q^2=1.5 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=2.0 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=2.5 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=3.5 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=5.0 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=6.5 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=8.5 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=12 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=15 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=20 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=25 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=35 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=45 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=60 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=90 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=120 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=150 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=200 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=250 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=300 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=400 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=500 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=650 GeV^2 as a function of X without model assumptions.

The proton structure functions FL and F2 measured at Q^2=800 GeV^2 as a function of X without model assumptions.

The proton structure function FL obtained by averaging the FL data from the previous tables.

The Neutral Current Reduced Cross Section for E- P interactions with a beam polarisation of -25.8 % for Q^2 values of 8000, 12000, 20000, 30000 and 50000 GeV^2.

The Neutral Current Reduced Cross Section for E- P interactions with a beam polarisation of +36.0 % for Q^2 values of 120, 150, 200, 250 and 300 GeV^2.

The Neutral Current Reduced Cross Section for E- P interactions with a beam polarisation of +36.0 % for Q^2 values of 400, 500, 650, 800 and 1000 GeV^2.

The Neutral Current Reduced Cross Section for E- P interactions with a beam polarisation of +36.0 % for Q^2 values of 1200, 1500, 2000, 3000 and 5000 GeV^2.

The Neutral Current Reduced Cross Section for E- P interactions with a beam polarisation of +36.0 % for Q^2 values of 8000, 12000, 20000, 30000 and GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of -37.0 % for Q^2 values of 120, 150, 200, 250 and 300 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of -37.0 % for Q^2 values of 400, 500, 650, 800 and 1000 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of -37.0 % for Q^2 values of 1200, 1500, 2000, 3000 and 5000 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of -37.0 % for Q^2 values of 8000, 12000, 20000, and GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of +32.5 % for Q^2 values of 120, 150, 200, 250 and 300 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of +32.5 % for Q^2 values of 400, 500, 650, 800 and 1000 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of +32.5 % for Q^2 values of 1200, 1500, 2000, 3000 and 5000 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of +32.5 % for Q^2 values of 8000, 12000, 20000, 30000 and GeV^2.

The Charged Current Double Differential Cross Section for E- P interactions with a beam polarisation of -25.8 % for Q^2 values of 300, 500, 1000, 2000 and 3000 GeV^2.

The Charged Current Double Differential Cross Section for E- P interactions with a beam polarisation of -25.8 % for Q^2 values of 5000, 8000, 15000, 30000 and GeV^2.

The Charged Current Double Differential Cross Section for E- P interactions with a beam polarisation of +36.0 % for Q^2 values of 300, 500, 1000, 2000 and 3000 GeV^2.

The Charged Current Double Differential Cross Section for E- P interactions with a beam polarisation of +36.0 % for Q^2 values of 5000, 8000, 15000, and GeV^2.

The Charged Current Double Differential Cross Section for E+ P interactions with a beam polarisation of -37.0 % for Q^2 values of 300, 500, 1000, 2000 and 3000 GeV^2.

The Charged Current Double Differential Cross Section for E+ P interactions with a beam polarisation of -37.0 % for Q^2 values of 5000, 8000, 15000, and GeV^2.

The Charged Current Double Differential Cross Section for E+ P interactions with a beam polarisation of +32.5 % for Q^2 values of 300, 500, 1000, 2000 and 3000 GeV^2.

The Charged Current Double Differential Cross Section for E+ P interactions with a beam polarisation of +32.5 % for Q^2 values of 5000, 8000, 15000, and GeV^2.

The Neutral Current Reduced Cross Section for E- P interactions with a beam polarisation of 0 % for Q^2 values of 90, 120, 150, 200 and 250 GeV^2.

The Neutral Current Reduced Cross Section for E- P interactions with a beam polarisation of 0 % for Q^2 values of 300, 400, 500, 650 and 800 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of 0 % for Q^2 values of 90, 120, 150, 200 and 250 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of 0 % for Q^2 values of 300, 400, 500, 650 and 800 GeV^2.

The Neutral Current Reduced Cross Section for E+- P interactions with a beam polarisation of 0 % as a function of Q^2 at Y=0.75.

The Neutral Current Reduced Cross Section for E- P interactions with a beam polarisation of 0 % for Q^2 values of 120, 150, 200, 250 and 300 GeV^2.

The Neutral Current Reduced Cross Section for E- P interactions with a beam polarisation of 0 % for Q^2 values of 400, 500, 650, 800 and 1000 GeV^2.

The Neutral Current Reduced Cross Section for E- P interactions with a beam polarisation of 0 % for Q^2 values of 1200, 1500, 2000, 3000 and 5000 GeV^2.

The Neutral Current Reduced Cross Section for E- P interactions with a beam polarisation of 0 % for Q^2 values of 8000, 12000, 20000, 30000 and 50000 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of 0 % for Q^2 values of 120, 150, 200, 250 and 300 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of 0 % for Q^2 values of 400, 500, 650, 800 and 1000 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of 0 % for Q^2 values of 1200, 1500, 2000, 3000 and 5000 GeV^2.

The Neutral Current Reduced Cross Section for E+ P interactions with a beam polarisation of 0 % for Q^2 values of 8000, 12000, 20000, 30000 and GeV^2.

The Charged Current Double Differential Cross Section for E- P interactions with a beam polarisation of 0 % for Q^2 values of 300, 500, 1000, 2000 and 3000 GeV^2.

The Charged Current Double Differential Cross Section for E- P interactions with a beam polarisation of 0 % for Q^2 values of 5000, 8000, 15000, 30000 and GeV^2.

The Charged Current Double Differential Cross Section for E+ P interactions with a beam polarisation of 0 % for Q^2 values of 300, 500, 1000, 2000 and 3000 GeV^2.

The Charged Current Double Differential Cross Section for E+ P interactions with a beam polarisation of 0 % for Q^2 values of 5000, 8000, 15000, and GeV^2.

The combined HERA I+II Neutral Current Reduced Cross Section and F2 for E- P interactions with a beam polarisation of 0 %.

The combined HERA I+II Neutral Current Reduced Cross Section and F2 for E+ P interactions with a beam polarisation of 0 %.

The combined HERA I+II Charged Current Double Differential Cross Section and Reduced Cross Section for E- P interactions with a beam polarisation of 0 %.

The combined HERA I+II Charged Current Double Differential Cross Section and Reduced Cross Section for E+ P interactions with a beam polarisation of 0 %.

The Neutral Current DSIG/DQ**2 for E- P interactions with a beam polarisation of -25.8% and +36.0% as a function of Q^2 at Y<0.9.

The Neutral Current DSIG/DQ**2 for E+ P interactions with a beam polarisation of -37.0% and +32.5% as a function of Q^2 at Y<0.9.

The Charged Current DSIG/DQ**2 for E- P interactions with a beam polarisation of -25.8% and +36.0% as a function of Q^2 at Y<0.9.

The Charged Current DSIG/DQ**2 for E+ P interactions with a beam polarisation of -37.0% and +32.5% as a function of Q^2 at Y<0.9.

The Neutral Current DSIG/DQ**2 for E+- P interactions with a beam polarisation of 0% as a function of Q^2 at Y<0.9.

The Charged Current DSIG/DQ**2 for E+- P interactions with a beam polarisation of 0% as a function of Q^2 at Y<0.9.

The Combined HERA I+ II Neutral Current DSIG/DQ**2 for E+- P interactions with a beam polarisation of 0% as a function of Q^2 at Y<0.9.

The Combined HERA I+ II Neutral Current DSIG/DQ**2 for E+- P interactions with a beam polarisation of 0% as a function of Q^2 at Y<0.9.

The measured structure function F2(gZ) determined using the polarised HERA II data set for Q^2 values of 200, 250, 300 and 400 GeV^2.

The measured structure function F2(gZ) determined using the polarised HERA II data set for Q^2 values of 500, 650, 800 and 1000 GeV^2.

The measured structure function F2(gZ) determined using the polarised HERA II data set for Q^2 values of 1200, 1500, 2000 and 3000 GeV^2.

The measured structure function F2(gZ) determined using the polarised HERA II data set for Q^2 values of 5000, 8000, 12000 and 20000 GeV^2.

Averaged structure function F2(gz) for a Q^2 value of 1500 GeV^2 determined using the polarised HERA II data set.

The measured structure function xF3(gZ) determined using the polarised HERA II data set for Q^2 values of 5000, 8000, 12000, 20000 and 30000 GeV^2.

The measured structure function xF3(gZ) determined using the polarised HERA II data set for Q^2 values of 1200, 1500, 2000, 3000 and GeV^2.

Averaged structure function xF3(gz) for a Q^2 value of 1500 GeV^2 determined using the polarised HERA II data set.

Data from the 2000 running period at Q**2 There is an additional 1.2 PCT overall normalisation uncertainty not included.

Data from the 2000 running period at Q**2 There is an additional 1.2 PCT overall normalisation uncertainty not included.

Data from the 2000 running period at Q**2 There is an additional 1.2 PCT overall normalisation uncertainty not included.

Data from the 2000 running period at Q**2 There is an additional 1.2 PCT overall normalisation uncertainty not included.

Data from the 2000 running period at Q**2 There is an additional 1.2 PCT overall normalisation uncertainty not included.

Data from the 2000 running period at Q**2 There is an additional 1.2 PCT overall normalisation uncertainty not included.

Data from the 2000 running period at Q**2 There is an additional 1.2 PCT overall normalisation uncertainty not included.

Data from the 1996/1997 running period at Q**2 There is an additional 1.7 PCT overall normalisation uncertainty not included.

Data from the 1996/1997 running period at Q**2 There is an additional 1.7 PCT overall normalisation uncertainty not included.

Data from the 1996/1997 running period at Q**2 There is an additional 1.7 PCT overall normalisation uncertainty not included.

Data from the 1996/1997 running period at Q**2 There is an additional 1.7 PCT overall normalisation uncertainty not included.

Data from the 1996/1997 running period at Q**2 There is an additional 1.7 PCT overall normalisation uncertainty not included.

Data from the 1996/1997 running period at Q**2 There is an additional 1.7 PCT overall normalisation uncertainty not included.

Data from the 1996/1997 running period at Q**2 There is an additional 1.7 PCT overall normalisation uncertainty not included.

Data from the 1996/1997 running period at Q**2 There is an additional 1.7 PCT overall normalisation uncertainty not included.

Data from the 1996/1997 running period at Q**2 There is an additional 1.7 PCT overall normalisation uncertainty not included.

Data from the 1996/1997 running period at Q**2 There is an additional 1.7 PCT overall normalisation uncertainty not included.

Combined data at Q**2 There is an additional 0.5 PCT correlated uncertainty not included.

Combined data at Q**2 There is an additional 0.5 PCT correlated uncertainty not included.

Combined data at Q**2 There is an additional 0.5 PCT correlated uncertainty not included.

Combined data at Q**2 There is an additional 0.5 PCT correlated uncertainty not included.

Combined data at Q**2 There is an additional 0.5 PCT correlated uncertainty not included.

Combined data at Q**2 There is an additional 0.5 PCT correlated uncertainty not included.

Combined data at Q**2 There is an additional 0.5 PCT correlated uncertainty not included.

Combined data at Q**2 There is an additional 0.5 PCT correlated uncertainty not included.

Combined data at Q**2 There is an additional 0.5 PCT correlated uncertainty not included.

Combined data at Q**2 There is an additional 0.5 PCT correlated uncertainty not included.

Details of the bin-to-bin correlated systematic uncertainties from the 2000 running period.

Details of the bin-to-bin correlated systematic uncertainties from the 1996/1997 running period.

Details of the bin-to-bin correlated systematic uncertainties from the combined data sets after diagonisation for Q**2.

Details of the bin-to-bin correlated systematic uncertainties from the combined data sets after diagonisation for Q**2.

Details of the bin-to-bin correlated systematic uncertainties from the combined data sets after diagonisation for Q**2.

Details of the bin-to-bin correlated systematic uncertainties from the combined data sets after diagonisation for Q**2.

Details of the bin-to-bin correlated systematic uncertainties from the combined data sets after diagonisation for Q**2.

Details of the bin-to-bin correlated systematic uncertainties from the combined data sets after diagonisation for Q**2.

Details of the bin-to-bin correlated systematic uncertainties from the combined data sets after diagonisation for Q**2.

Details of the bin-to-bin correlated systematic uncertainties from the combined data sets after diagonisation for Q**2.

Details of the bin-to-bin correlated systematic uncertainties from the combined data sets after diagonisation for Q**2.

Details of the bin-to-bin correlated systematic uncertainties from the combined data sets after diagonisation for Q**2.

Reduced cross section as measured in the SVX data sample for Q**2 = 0.50 GeV**2. Additional 3 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the SVX data sample for Q**2 = 0.65 GeV**2. Additional 3 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the SVX data sample for Q**2 = 0.85 GeV**2. Additional 3 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the SVX data sample for Q**2 = 1.20 GeV**2. Additional 3 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the SVX data sample for Q**2 = 1.50 GeV**2. Additional 3 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the SVX data sample for Q**2 = 2.00 GeV**2. Additional 3 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the SVX data sample for Q**2 = 2.50 GeV**2. Additional 3 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the SVX data sample for Q**2 = 3.50 GeV**2. Additional 3 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 0.50 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 0.65 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 0.85 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 1.20 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 1.50 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 2.00 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 2.50 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 3.50 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 5.00 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 6.50 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 8.50 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-BST data sample for Q**2 = 12.00 GeV**2.. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Reduced cross section as measured in the NVX-S9 data sample. Additional 1.1 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 0.2 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 0.25 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 0.35 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 0.5 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 0.65 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 0.85 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 1.2 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 1.5 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 2.0 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 2.5 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 3.5 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 5.0 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 6.5 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 8.5 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

Combined H1 reduced cross section and F2 measurement for Q**2 = 12.0 GeV**2. Additional 0.5 PCT luminosity uncertainty not included in the total error.

HERA combined reduced cross sections $\sigma_{r,\rm NC}^{+}$ for NC $e^{+}p$ scattering at $\sqrt{s} = 225$ GeV; $\delta_{\rm stat}$, $\delta_{\rm uncor}$ and $\delta_{\rm cor}$ represent the statistical, uncorrelated systematic and correlated systematic uncertainties, respectively; $\delta_{\rm rel}$, $\delta_{\gamma p}$, $\delta_{\rm had}$ and $\delta_{1}$ to $\delta_{4}$ are the correlated sources of uncertainties arising from the combination procedure. The uncertainties are quoted in percent relative to $\sigma_{r,\rm NC}^{+}$.

HERA combined reduced cross sections $\sigma_{r,\rm NC}^{-}$ for NC $e^{-}p$ scattering at $\sqrt{s} = 318$ GeV; $\delta_{\rm stat}$, $\delta_{\rm uncor}$ and $\delta_{\rm cor}$ represent the statistical, uncorrelated systematic and correlated systematic uncertainties, respectively; $\delta_{\rm rel}$, $\delta_{\gamma p}$, $\delta_{\rm had}$ and $\delta_{1}$ to $\delta_{4}$ are the correlated sources of uncertainties arising from the combination procedure. The uncertainties are quoted in percent relative to $\sigma_{r,\rm NC}^{-}$.

HERA combined reduced cross sections $\sigma_{r,\rm CC}^{+}$ for CC $e^{+}p$ scattering at $\sqrt{s} = 318$ GeV; $\delta_{\rm stat}$, $\delta_{\rm uncor}$ and $\delta_{\rm cor}$ represent the statistical, uncorrelated systematic and correlated systematic uncertainties, respectively; $\delta_{\rm rel}$, $\delta_{\gamma p}$, $\delta_{\rm had}$ and $\delta_{1}$ to $\delta_{4}$ are the correlated sources of uncertainties arising from the combination procedure. The uncertainties are quoted in percent relative to $\sigma_{r,\rm CC}^{+}$.

HERA combined reduced cross sections $\sigma_{r,\rm CC}^{-}$ for CC $e^{-}p$ scattering at $\sqrt{s} = 318$ GeV; $\delta_{\rm stat}$, $\delta_{\rm uncor}$ and $\delta_{\rm cor}$ represent the statistical, uncorrelated systematic and correlated systematic uncertainties, respectively; $\delta_{\rm rel}$, $\delta_{\gamma p}$, $\delta_{\rm had}$ and $\delta_{1}$ to $\delta_{4}$ are the correlated sources of uncertainties arising from the combination procedure. The uncertainties are quoted in percent relative to $\sigma_{r,\rm CC}^{-}$.

Structure function $xF_3^{\gamma Z}$ for different values of $Q^2$ and $x_{\rm Bj}$.

Structure function $xF_3^{\gamma Z}$ averaged over $Q^2 \ge 1000$ GeV$^2$ at the scale 1000 GeV$^2$.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=0.1 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=0.15 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=0.2 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=0.25 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=0.35 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=0.4 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=0.5 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=0.65 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=0.85 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=1.2 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=1.5 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=2. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=2.7 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=3.5 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=4.5 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=6.5 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=8.5 GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=10. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=12. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=15. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=18. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=22. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=27. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=35. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=45. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=60. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=70. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=90. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=120. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=150. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=200. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=250. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=300. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=400. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=500. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=650. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=800. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=1000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=1200. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=1500. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=2000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=3000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=5000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=8000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=12000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=20000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E+ P scattering at Q**2=30000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=90. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=120. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=150. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=200. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=250. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=300. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=400. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=500. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=650. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=800. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=1000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=1200. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=1500. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=2000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=3000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=5000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=8000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=12000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=20000. GeV**2.

Combined reduced cross section data and F2 for Neutral Current E- P scattering at Q**2=30000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E+ P scattering at Q**2=300. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E+ P scattering at Q**2=500. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E+ P scattering at Q**2=1000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E+ P scattering at Q**2=1500. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E+ P scattering at Q**2=2000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E+ P scattering at Q**2=3000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E+ P scattering at Q**2=5000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E+ P scattering at Q**2=8000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E+ P scattering at Q**2=15000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E- P scattering at Q**2=300. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E- P scattering at Q**2=500. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E- P scattering at Q**2=1000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E- P scattering at Q**2=1500. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E- P scattering at Q**2=2000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E- P scattering at Q**2=3000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E- P scattering at Q**2=5000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E- P scattering at Q**2=8000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E- P scattering at Q**2=15000. GeV**2.

Combined double differential cross section and reduced cross section data for Charged Current E- P scattering at Q**2=30000. GeV**2.

Total cross-section for E+P events.

Cross section difference for the proton data. Statistical errors only.

Cross section difference for the proton data. Statistical errors only.

Cross section difference for the proton data. Statistical errors only.

Cross section difference for the proton data. Statistical errors only.

Cross section difference for the proton data. Statistical errors only.

Cross section difference for the neutron data. Statistical errors only.

Cross section difference for the neutron data. Statistical errors only.

Cross section difference for the neutron data. Statistical errors only.

Cross section difference for the neutron data. Statistical errors only.

Cross section difference for the neutron data. Statistical errors only.

The NC single differential cross section, as a function of Q**2 in the range from 200 to 30000 Gev**2, measured for y < 0.9 and final state electron energy> 11 Gev, and also with the same y cut but after correction for the electron en ergy cut. Also tabulated are the QED corrections to the data, which have alreadybeen applied. The first DSYS error is the uncorrelated systematic error and the second is the correlated systematic error.

The CC single differential cross section, as a function of Q**2 in the range from 300 to 15000 Gev**2, measured for 0.03 < y < 0.85 and final state electron PT > 12 Gev, and also with the same y cut but after correction for the electron PT cut. Also tabulated are the QED corrections to the data, which have alreadybeen applied. The first DSYS error is the uncorrelated systematic error and the second is the correlated systematic error.

The various sources of error (in percent) to the individual NC reduced cross section given in table 4 - see text of paper for more details. DTOT - TOTAL error. DSTA - STATISTICAL error. DUNC - UNCORRELATED SYSTEMATIC error. DUNC(E) - UNCORRELATED SYSTEMATIC error from the positron energy. DUNC(T) - UNCORRELATED SYSTEMATIC error from the polar positron angle. DUNC(H) - UNCORRELATED SYSTEMATIC error from the hadronic energy. DCOR - CORRELATED SYSTEMATIC error. DCOR(E+) - CORRELATED SYSTEMATIC from one sig variation in the positron energy. DCOR(T+) - CORRELATED SYSTEMATIC from one sig variation in the positron polar angle. DCOR(H+) - CORRELATED SYSTEMATIC from one sig variation in the hadron energy. DCOR(N+) - CORRELATED SYSTEMATIC from one sig variation in the noise subtraction. DCOR(B+) - CORRELATED SYSTEMATIC from one sig variation in the background subtraction.

The various sources of error (in percent) to the individual CC double differential cross sections given in table 5 - see text of paper for more details. DTOT - TOTAL error. DSTA - STATISTICAL error. DUNC - UNCORRELATED SYSTEMATIC error. DUNC(H) - UNCORRELATED SYSTEMATIC error from the hadronic energy. DCOR - CORRELATED SYSTEMATIC error. DCOR(V+) - CORRELATED SYSTEMATIC from one sig variationin the cut on the Vap/Vp ratio. DCOR(H+) - CORRELATED SYSTEMATIC from one sig variation in the hadron energy. DCOR(N+) - CORRELATED SYSTEMATIC from one sig variation in the noise subtraction. DCOR(B+) - CORRELATED SYSTEMATIC from one sig variation in the background subtraction.