Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 32 GeV and jet cone opening angle 0.23.

Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 38 GeV and jet cone opening angle 0.23.

Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 19 GeV and jet cone opening angle 0.28.

Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 23 GeV and jet cone opening angle 0.28.

Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 28 GeV and jet cone opening angle 0.28.

Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 32 GeV and jet cone opening angle 0.28.

Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 38 GeV and jet cone opening angle 0.28.

Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 19 GeV and jet cone opening angle 0.34.

Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 23 GeV and jet cone opening angle 0.34.

Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 28 GeV and jet cone opening angle 0.34.

Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 32 GeV and jet cone opening angle 0.34.

Distribution of multiplicity of charged particles in a jet as a function of LN(1/X) for mean jet energy 38 GeV and jet cone opening angle 0.34.

Differential cross section DSIG/DX for the two values of longitudinal polarization of the electron beam.

Differential cross section DSIG/DY for the two values of longitudinal polarization of the electron beam.

Values of the differential cross section DSIG/DQ**2 with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlation between cross section bins.

Values of the differential cross section DSIG/DX with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlation between cross section bins.

Values of the differential cross section DSIG/DY with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlation between cross section bins.

Values of the differential cross section DSIG/DQ**2 with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlation between cross section bins.

Values of the differential cross section DSIG/DX with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlation between cross section bins.

Values of the differential cross section DSIG/DY with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlation between cross section bins.

Values of the reduced cross section for 3 values of longitudinal polarization of the electron beam for Q**2 = 280 GeV**2.

Values of the reduced cross section for 3 values of longitudinal polarization of the electron beam for Q**2 = 530 GeV**2.

Values of the reduced cross section for 3 values of longitudinal polarization of the electron beam for Q**2 = 950 GeV**2.

Values of the reduced cross section for 3 values of longitudinal polarization of the electron beam for Q**2 = 1700 GeV**2.

Values of the reduced cross section for 3 values of longitudinal polarization of the electron beam for Q**2 = 3000 GeV**2.

Values of the reduced cross section for 3 values of longitudinal polarization of the electron beam for Q**2 = 5300 GeV**2.

Values of the reduced cross section for 3 values of longitudinal polarization of the electron beam for Q**2 = 9500 GeV**2.

Values of the reduced cross section for 3 values of longitudinal polarization of the electron beam for Q**2 = 17000 GeV**2.

Values of the reduced cross section for 3 values of longitudinal polarization of the electron beam for Q**2 = 30000 GeV**2.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

Values of the reduced cross section with detailed statistical and systematic errors.. The first DSYS is the uncorrelated systematic error and the second is the calorimeter energy scale uncertainty which has significant correlationS between cross section bins.

The reduced cross section at Q**2 = 60 GeV**2 for centre-of-mass energy 318.

The reduced cross section at Q**2 = 80 GeV**2 for centre-of-mass energy 318.

The reduced cross section at Q**2 = 110 GeV**2 for centre-of-mass energy 318.

The reduced cross section at Q**2 = 24 GeV**2 for centre-of-mass energy 251.

The reduced cross section at Q**2 = 32 GeV**2 for centre-of-mass energy 251.

The reduced cross section at Q**2 = 45 GeV**2 for centre-of-mass energy 251.

The reduced cross section at Q**2 = 60 GeV**2 for centre-of-mass energy 251.

The reduced cross section at Q**2 = 80 GeV**2 for centre-of-mass energy 251.

The reduced cross section at Q**2 = 110 GeV**2 for centre-of-mass energy 251.

The reduced cross section at Q**2 = 24 GeV**2 for centre-of-mass energy 225.

The reduced cross section at Q**2 = 32 GeV**2 for centre-of-mass energy 225.

The reduced cross section at Q**2 = 45 GeV**2 for centre-of-mass energy 225.

The reduced cross section at Q**2 = 60 GeV**2 for centre-of-mass energy 225.

The reduced cross section at Q**2 = 80 GeV**2 for centre-of-mass energy 225.

The reduced cross section at Q**2 = 110 GeV**2 for centre-of-mass energy 225.

FL and F2 at Q**2 = 24 GeV**2 with no constraints on FL or F2.

FL and F2 at Q**2 = 32 GeV**2 with no constraints on FL or F2.

FL and F2 at Q**2 = 45 GeV**2 with no constraints on FL or F2.

FL and F2 at Q**2 = 60 GeV**2 with no constraints on FL or F2.

FL and F2 at Q**2 = 80 GeV**2 with no constraints on FL or F2.

FL and F2 at Q**2 = 110 GeV**2 with no constraints on FL or F2.

FL and F2 with the additional constraints that F2 >= 0 and 0 <= FL <= F2.

FL and F2 with the additional constraints that F2 >= 0 and 0 <= FL <= F2.

FL and F2 with the additional constraints that F2 >= 0 and 0 <= FL <= F2.

FL and F2 with the additional constraints that F2 >= 0 and 0 <= FL <= F2.

FL and F2 with the additional constraints that F2 >= 0 and 0 <= FL <= F2.

FL and F2 with the additional constraints that F2 >= 0 and 0 <= FL <= F2.

FL and R as a function of Q**2 with no constraints on F2 or FL. The quantites are quoted such that Q**2/X is constant for each value which correspinds to Y = 0.71 at Ecm=225 GeV.

FL and R as a function of Q**2 with the additional constraints that F2 >= 0 and 0 <= FL <= F2. The quantites are quoted such that Q**2/X is constant for each value which correspinds to Y = 0.71 at Ecm=225 GeV.

Percentage contributions of the various sources of systematic error for Q**2 = 24 GeV**2 for centrof-mass energy 318.

Percentage contributions of the various sources of systematic error for Q**2 = 32 GeV**2 for centrof-mass energy 318.

Percentage contributions of the various sources of systematic error for Q**2 = 45 GeV**2 for centrof-mass energy 318.

Percentage contributions of the various sources of systematic error for Q**2 = 60 GeV**2 for centrof-mass energy 318.

Percentage contributions of the various sources of systematic error for Q**2 = 80 GeV**2 for centrof-mass energy 318.

Percentage contributions of the various sources of systematic error for Q**2 = 110 GeV**2 for centrof-mass energy 318.

Percentage contributions of the various sources of systematic error for Q**2 = 24 GeV**2 for centrof-mass energy 251.

Percentage contributions of the various sources of systematic error for Q**2 = 32 GeV**2 for centrof-mass energy 251.

Percentage contributions of the various sources of systematic error for Q**2 = 45 GeV**2 for centrof-mass energy 251.

Percentage contributions of the various sources of systematic error for Q**2 = 60 GeV**2 for centrof-mass energy 251.

Percentage contributions of the various sources of systematic error for Q**2 = 80 GeV**2 for centrof-mass energy 251.

Percentage contributions of the various sources of systematic error for Q**2 = 110 GeV**2 for centrof-mass energy 251.

Percentage contributions of the various sources of systematic error for Q**2 = 24 GeV**2 for centrof-mass energy 225.

Percentage contributions of the various sources of systematic error for Q**2 = 32 GeV**2 for centrof-mass energy 225.

Percentage contributions of the various sources of systematic error for Q**2 = 45 GeV**2 for centrof-mass energy 225.

Percentage contributions of the various sources of systematic error for Q**2 = 60 GeV**2 for centrof-mass energy 225.

Percentage contributions of the various sources of systematic error for Q**2 = 80 GeV**2 for centrof-mass energy 225.

Percentage contributions of the various sources of systematic error for Q**2 = 110 GeV**2 for centrof-mass energy 225.

Measured D+- cross section as a function of X.

Measured D+- cross section as a function of the transverse momentum of the D meson.

Measured D+- cross section as a function of the pseudorapidity of the D meson.

Measured D0/DBAR0 cross section as a function of Q**2.

Measured D0/DBAR0 cross section as a function of X.

Measured D0/DBAR0 cross section as a function of the transverse momentum of the D meson.

Measured D0/DBAR0 cross section as a function of the pseudorapidity of the D meson.

Measured cross section for D+- mesons in Q**2 and Y bins.

Measured cross section for D0/DBAR0 mesons in Q**2 and Y bins.

The extracted values of the F2(NAME=CHARM) structure function from the production cross section of D+- mesons.. The second systematic error is from the extrapolation to the full phase space.

The extracted values of the F2(NAME=CHARM) structure function from the production cross section of D+- mesons.. The second systematic error is from the extrapolation to the full phase space.

The extracted values of the F2(NAME=CHARM) structure function from the production cross section of D+- mesons.. The second systematic error is from the extrapolation to the full phase space.

The extracted values of the F2(NAME=CHARM) structure function from the production cross section of D0/DBAR0 mesons not coming from D*+- decays.. The second systematic error is from the extrapolation to the full phase space.

The extracted values of the F2(NAME=CHARM) structure function from the production cross section of D0/DBAR0 mesons not coming from D*+- decays.. The second systematic error is from the extrapolation to the full phase space.

The extracted values of the F2(NAME=CHARM) structure function from the production cross section of D0/DBAR0 mesons not coming from D*+- decays.. The second systematic error is from the extrapolation to the full phase space.

The combined F2(NAME=CHARM) structure function from the production cross section of D+- and D0/DBAR0 mesons.. The second systematic error is from the extrapolation to the full phase space.. The additional error from the branching ratio is 3.3 PCT.

The combined F2(NAME=CHARM) structure function from the production cross section of D+- and D0/DBAR0 mesons.. The second systematic error is from the extrapolation to the full phase space.. The additional error from the branching ratio is 3.3 PCT.

The combined F2(NAME=CHARM) structure function from the production cross section of D+- and D0/DBAR0 mesons.. The second systematic error is from the extrapolation to the full phase space.. The additional error from the branching ratio is 3.3 PCT.

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.

3-jet cross section normalised to 2-jet cross section in bins of $Q^{2}$.

Normalised inclusive jet cross section in bins of $Q^{2}$ and $P_{T}$.

Normalised 2-jet cross section in bins of $Q^{2}$ and $\langle P_{T} \rangle$.

Normalised 2-jet cross sections in bins of $Q^2$ and $\xi$.

Normalised D*+- cross section, corrected to the parton level, as a function of zHem for the D*+- jet sample.

Normalised D*+- cross section, for W < 170 GeV, as a function of zJet for the D*+- jet sample.

Normalised D*+- cross section, for W > 170 GeV, as a function of zJet for the D*+- jet sample.

Normalised D*+- cross section, for W < 170 GeV, as a function of zHem for the D*+- jet sample.

Normalised D*+- cross section, for W > 170 GeV, as a function of zHem for the D*+- jet sample.

Normalised D*+- cross section as a function of zHem for the no D*+- jet sample.

Normalised D*+- cross section, corrected to the parton level, as a function of zHem for the no D*+- jet sample.

Covariance Matrix for the normalised D*+- cross section as a function of zJet for the D*+- jet sample.

Covariance Matrix for the normalised D*+- cross section as a function of zHem for the D*+- jet sample.

Covariance Matrix for the normalised D*+- cross section, corrected to the parton level, as a function of zJet for the D*+- jet sample.

Covariance Matrix for the normalised D*+- cross section, corrected to the parton level, as a function of zHem for the D*+- jet sample.

Covariance Matrix for the normalised D*+- cross section, for W < 170 GeV, as a function of zJet for the D*+- jet sample.

Covariance Matrix for the normalised D*+- cross section, for W > 170 GeV, as a function of zJet for the D*+- jet sample.

Covariance Matrix for the normalised D*+- cross section, for W < 170 GeV, as a function of zHem for the D*+- jet sample.

Covariance Matrix for the normalised D*+- cross section, for W > 170 GeV, as a function of zHem for the D*+- jet sample.

Covariance Matrix for the normalised D*+- cross section as a function of zHem for the no D*+- jet sample.

Covariance Matrix for the normalised D*+- cross section, corrected to the parton level, as a function of zHem for the no D*+- jet sample.

Differential cross sections as a function of X(C=GAMMA) from beauty and charm quarks.

Differential cross sections for the most energetic jet as a function of ET from beauty and charm quarks.

Differential cross sections for the most energetic jet as a function of ET from beauty and charm quarks.

Differential cross sections as a function of the electron ET for the jet associated to the electron from beauty or charm decays.

The measured longitudinal proton structure function FL at Q**2 = 25 GeV**2 extracted from the combined 920,575 and 450 GeV proton energy data.

The measured longitudinal proton structure function FL at Q**2 = 35 GeV**2 extracted from the combined 920,575 and 450 GeV proton energy data.

The measured longitudinal proton structure function FL at Q**2 = 45 GeV**2 extracted from the combined 920,575 and 450 GeV proton energy data.

The measured longitudinal proton structure function FL at Q**2 = 60 GeV**2 extracted from the combined 920,575 and 450 GeV proton energy data.

The measured longitudinal proton structure function FL at Q**2 = 90 GeV**2 extracted from the combined 920,575 and 450 GeV proton energy data.

The longitudinal proton structure function FL as a function of Q**2 at given values of X extracted from the combined 920,575 and 450 GeV proton energy data. The first DSYS error is the uncorrelated systematic error and the second is the correlated systematic error.