Results for G1(DEUT)/F1(DEUT) for the deuteron in bins of (W;Q**2), along with average kinematic values and correction factors for each bin. All values are averaged over the event distribution.

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.

Inclusive Jet Cross Section ${\rm\frac{d\sigma_{jet}}{dP_T}}$.

2-Jet Cross Section ${\rm\frac{d\sigma_{2-jet}}{d\langle P_T \rangle}}$.

3-Jet Cross Section ${\rm\frac{d\sigma_{3-jet}}{d\langle P_T \rangle}}$.

Inclusive Jet Cross Section ${\rm\frac{d^2\sigma_{jet}}{dQ^2dP_T}}$.

2-Jet Cross Section ${\rm\frac{d^2\sigma_{2-jet}}{dQ^2d\langle P_T \rangle}}$.

2-Jet Cross Section ${\rm\frac{d^2\sigma_{2-jet}}{dQ^2d\xi}}$.

3-Jet Cross Section ${\rm\frac{d^2\sigma_{3-jet}}{dQ^2d\langle P_T \rangle}}$.

3-Jet to 2-Jet Cross Sections Ratio ${\rm\frac{d\sigma_{3-jet}}{dQ^2}/\frac{d\sigma_{2-jet}}{dQ^2}}$.

3-Jet to 2-Jet Cross Sections Ratio ${\rm\frac{d\sigma_{3-jet}}{d\langle P_T \rangle}/\frac{d\sigma_{2-jet}}{d\langle P_T \rangle}}$.

3-Jet to 2-Jet Cross Sections Ratio ${\rm\frac{d^2\sigma_{3-jet}}{dQ^2d\langle P_T \rangle}/\frac{d^2\sigma_{2-jet}}{dQ^2d\langle P_T \rangle}}$.

Bin averaged differential cross section as a function of ET in the defined phase space.

Bin averaged double differential cross section for inclusive prompt photon production in bins of ET and the pseudorapidity range -1.00 to -0.57.

Bin averaged double differential cross section for inclusive prompt photon production in bins of ET and the pseudorapidity range -0.57 to 0.20.

Bin averaged double differential cross section for inclusive prompt photon production in bins of ET and the pseudorapidity range 0.20 to 0.94.

Bin averaged double differential cross section for inclusive prompt photon production in bins of ET and the pseudorapidity range 0.94 to 1.42.

Bin averaged double differential cross section for inclusive prompt photon production in bins of ET and the pseudorapidity range 1.42 to 2.43.

Bin averaged differential cross section for prompt photon plus jet as a function of the photon transverse energy.

Bin averaged differential cross section for prompt photon plus jet as a function of the photon pseudorapidity.

Bin averaged differential cross section for prompt photon plus jet as a function of the jet transverse energy.

Bin averaged differential cross section for prompt photon plus jet as a function of the jet pseudorapidity.

Bin averaged differential cross section for prompt photon plus jet as a function of X(C=GAMMA,LO) thelongitudinal momentum fraction of the partons in the photon in LO approximation.

Bin averaged differential cross section for prompt photon plus jet as a function of X(C=P,LO) thelongitudinal momentum fraction of the partons in the proton in LO approximation.

Bin averaged differential cross section for prompt photon plus jet as a function of the photons transverse momentum perpendicular to the jet direction separated into two regions of X(C=GAMMA,LO).

Bin averaged differential cross section for prompt photon plus jet as a function of the difference in azimuthal angle between the photon and the jet separated into two regions of X(C=GAMMA,LO).

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

The semi-inclusive leading neutron structure function for Q**2.

Measured differential photoproduction cross sections as a function of the squared transverse momentum of the J/PSI in 4 bins of elasticity.

Measured differential photoproduction cross sections as a function of the elasticity of the J/PSI in 4 bins of transverse momentum.

Measured differential electroproduction cross section as a function of Q**2.

Measured differential electroproduction cross section as a function of the squared transverse momentum of the J/PSI in the GAMMA* P frame.

Measured differential electroproduction cross section as a function of the elasticity of the J/PSI.

Measured differential electroproduction cross section as a function of the photon-proton centre of mass energy W.

Measured differential electroproduction cross section as a function of the squared transverse momentum of the J/PSI in the GAMMA* P rest frame.

Measured differential electroproduction cross section as a function of the squared transverse momentum of the J/PSI in the GAMMA* P rest frame.

Measured differential electroproduction cross section as a function of the squared transverse momentum of the J/PSI in the GAMMA* P rest frame.

Measured differential electroproduction cross section as a function of the elasticity of the J/PSI.

Measured differential electroproduction cross section as a function of the elasticity of the J/PSI.

Measured differential electroproduction cross section as a function of the elasticity of the J/PSI.

Measured polarization parameter in the Helicity Frame. Here ALPHA is given by DSIG/DCOS(THETA) ~ 1+ ALPHA COS(THETA)**2 and NU is given by DSIG/DPHI ~ 1+ ALPHA/3 + (NU/3)*COS(2THETA).

Measured polarization parameter in the Collins-Soper Frame. Here ALPHA is given by DSIG/DCOS(THETA) ~ 1+ ALPHA COS(THETA)**2 and NU is given by DSIG/DPHI ~ 1+ ALPHA/3 + (NU/3)*COS(2THETA).

Measured polarization parameter in the Helicity Frame. Here ALPHA is given by DSIG/DCOS(THETA) ~ 1+ ALPHA COS(THETA)**2 and NU is given by DSIG/DPHI ~ 1+ ALPHA/3 + (NU/3)*COS(2THETA).

Measured polarization parameter in the Collins-Soper Frame. Here ALPHA is given by DSIG/DCOS(THETA) ~ 1+ ALPHA COS(THETA)**2 and NU is given by DSIG/DPHI ~ 1+ ALPHA/3 + (NU/3)*COS(2THETA).

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.

Single differential cross section DSIG/DZ for D*+- production. The DSYS errors are the uncorrelated and correlated systematicuncertainties respectively.

Single differential cross section DSIG/DLOG(Q**2) for D*+- production. The DSYS errors are the uncorrelated and correlated systematicuncertainties respectively.

Single differential cross section DSIG/DX for D*+- production. The DSYS errors are the uncorrelated and correlated systematicuncertainties respectively.

Double differential cross section for D*+- production in the LOG(Q**2) binfrom 2.0 to 2.2. The DSYS errors are the uncorrelated and correlated systematicuncertainties respectively.

Double differential cross section for D*+- production in the LOG(Q**2) binfrom 2.2 to 2.4. The DSYS errors are the uncorrelated and correlated systematicuncertainties respectively.

Double differential cross section for D*+- production in the LOG(Q**2) binfrom 2.4 to 3.0. The DSYS errors are the uncorrelated and correlated systematicuncertainties respectively.

Measured values of the charm contributions to F2 for a mean Q**2 of 120GeV. The third DSYS error is the model uncertainty.

Measured values of the charm contributions to F2 for a mean Q**2 of 200GeV. The third DSYS error is the model uncertainty.

Measured values of the charm contributions to F2 for a mean Q**2 of 400GeV. The third DSYS error is the model uncertainty.

Differential K0S cross section as a function of Q**2 in the laboratory frame.

Differential K0S cross section as a function of X in the laboratory frame.

Differential K0S cross section as a function of PT in the laboratory frame.

Differential K0S cross section as a function of ETARAP in the laboratory frame.

Differential LAMBDA cross section as a function of Q**2 in the laboratory frame.

Differential LAMBDA cross section as a function of X in the laboratory frame.

Differential LAMBDA cross section as a function of PT in the laboratory frame.

Differential LAMBDA cross section as a function of ETARAP in the laboratoryframe.

Differential K0S cross section as a function of PT in the target hemisphere of the Breit frame.

Differential K0S cross section as a function of PT in the current hemisphere of the Breit frame.

Differential K0S cross section as a function of XP(Breit) in the target hemisphere of the Breit frame.

Differential K0S cross section as a function of XP(Breit) in the current hemisphere of the Breit frame.

Differential LAMBDA cross section as a function of PT in the target hemisphere of the Breit frame.

Differential LAMBDA cross section as a function of PT in the current hemisphere of the Breit frame.

Differential LAMBDA cross section as a function of XP(Breit) in the target hemisphere of the Breit frame.

Differential LAMBDA cross section as a function of XP(Breit) in the currenthemisphere of the Breit frame.

Value of the LAMBDA/K0S cross section ratio as a function of Q**2.

Value of the LAMBDA/K0S cross section ratio as a function of X.

Value of the LAMBDA/K0S cross section ratio as a function of PT.

Value of the LAMBDA/K0S cross section ratio as a function of ETARAP.

Value of the LAMBDA/K0S cross section ratio as a function of PT in the target hemisphere of the Breit frame.

Value of the LAMBDA/K0S cross section ratio as a function of PT in the current hemisphere of the Breit frame.

Value of the LAMBDA/K0S cross section ratio as a function of X in the target hemisphere of the Breit frame.

Value of the LAMBDA/K0S cross section ratio as a function of X in the current hemisphere of the Breit frame.

Value of the HADRON+-/K0S cross section ratio as a function of Q**2.

Value of the HADRON+-/K0S cross section ratio as a function of X.

Value of the HADRON+-/K0S cross section ratio as a function of PT.

Value of the HADRON+-/K0S cross section ratio as a function of ETARAP.

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.