Signal region detector-level distribution for the observable $p_{\mathrm{T}}^{\mathrm{lead}\, \ell}$.

Signal region detector-level distribution for the observable $m_{e\mu}$.

Signal region detector-level distribution for the observable $p_{\mathrm{T}}^{e\mu}$.

Measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $|y_{e\mu}|$

Relative systematic uncertainties for the fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $|y_{e\mu}|$

Measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $|\Delta \phi(e \mu)|$

Relative systematic uncertainties for the fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $|\Delta \phi(e \mu)|$

Measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $ \cos\theta^{\ast}$

Relative systematic uncertainties for the fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $ \cos\theta^{\ast}$

Measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $p_{\mathrm{T}}^{\mathrm{lead}\, \ell}$

Relative systematic uncertainties for the fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $p_{\mathrm{T}}^{\mathrm{lead}\, \ell}$

Measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $m_{e\mu}$

Relative systematic uncertainties for the fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $m_{e\mu}$

Measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $p_{\mathrm{T}}^{e\mu}$

Relative systematic uncertainties for the fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $p_{\mathrm{T}}^{e\mu}$

The statistical correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $|y_{e\mu}|$

The total correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $|y_{e\mu}|$

The statistical correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $|\Delta \phi(e \mu)|$

The total correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $|\Delta \phi(e \mu)|$

The statistical correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $ \cos\theta^{\ast}$

The total correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $ \cos\theta^{\ast}$

The statistical correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $p_{\mathrm{T}}^{\mathrm{lead}\, \ell}$

The total correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $p_{\mathrm{T}}^{\mathrm{lead}\, \ell}$

The statistical correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $m_{e\mu}$

The total correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $m_{e\mu}$

The statistical correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $p_{\mathrm{T}}^{e\mu}$

The total correlation coefficients (in percentage) between bins for the measured fiducial differential cross-section of $WW \rightarrow e^{\pm}\nu\mu^{\mp}\nu$ production for the observable $p_{\mathrm{T}}^{e\mu}$

The di-jet cross section as a function of the mean transverse energy of thedi-jet system for the region where either X(C=GAMMA+) or X(C=GAMMA-) are < 0.75 .

The di-jet cross section as a function of the mean transverse energy of thedi-jet system for the region where both X(C=GAMMA+) and X(C=GAMMA-) are < 0.75.

The di-jet cross section as a function of X(C=GAMMA) for transverse energy from 5 TO 7 GeV for the full X(C=GAMMA+) and X(C=GAMMA-) region.

The di-jet cross section as a function of X(C=GAMMA) for mean transverse energy 7 TO 11 GeV for the full X(C=GAMMA+)-X(C=GAMMA-) region.

The di-jet cross section as a function of X(C=GAMMA) for mean transverse energy 11 TO 25 for the full X(C=GAMMA+)-X(C=GAMMA-) region.

The di-jet cross section as a function of X(C=GAMMA) for mean transverse energy 5 TO 7 GeV in the region where either X(C=GAMMA+) or X(C=GAMMA-) are < 0.75.

The di-jet cross section as a function of X(C=GAMMA) for mean transverse energy 7 TO 11 GeV in the region where either X(C=GAMMA+) or X(C=GAMMA-) are < 0.75.

The di-jet cross section as a function of X(C=GAMMA) for mean transverse energy 5 TO 7 GeV in the region where both X(C=GAMMA+) and X(C=GAMMA-) are < 0.75.

The di-jet cross section as a function of X(C=GAMMA) for mean transverse energy 7 TO 11 GeV in the region where both X(C=GAMMA+) and X(C=GAMMA-) are < 0.75.

The di-jet cross section as a function of LOG10(X(C =GAMMA)) for mean transverse energy 5 TO 7 GeV for the full X(C=GAMMA+)-X(C=GAMMA-) region.

The di-jet cross section as a function of LOG10(X(C =GAMMA)) for mean transverse energy 5 TO 7 for the region where either X(C=GAMMA+) or X(C=GAMMA-) are <0.75.

The di-jet cross section as a function of LOG10(X(C =GAMMA)) for mean transverse energy 5 to 7 GeV for the region where both X(C=GAMMA+) and X(C=GAMMA-) are < 0.75.

The di-jet cross section as a function of the absolute pseudorapidity difference of the two leading jets for the region where either X(C=GAMMA+) or X(C=GAMMA-) are < 0.75.

The di-jet cross section as a function of the absolute pseudorapidity difference of the two leading jets for the region where both X(C=GAMMA+) and X(C=GAMMA-) are < 0.75.

The di-jet cross section as a function of the pseudorapidity of the jet with the lower pseudorapidity in the region where either X(C=GAMMA+) or X(C=GAMMA-)are < 0.75.

The di-jet cross section as a function of the pseudorapidity of the jet with the lower pseudorapidity in the region where both X(C=GAMMA+) and X(C=GAMMA-) are < 0.75.

The di-jet cross section as a function of the pseudorapidity of the jet with the lower pseudorapidity in the region where either X(C=GAMMA+) or X(C=GAMMA-)are < 0.75.

The di-jet cross section as a function of the pseudorapidity of the jet with the lower pseudorapidity in the region where both X(C=GAMMA+) and X(C=GAMMA-) are < 0.75.

The reduced cross section in the Q**2 regions 185 to 240 and 240 to 310 GeV**2.

The reduced cross section in the Q**2 regions 310 to 410 and 410 to 530 GeV**2.

The reduced cross section in the Q**2 regions 530 to 710 and 710 to 900 GeV**2.

The reduced cross section in the Q**2 regions 900 to 1300 and 1300 to 1800 GeV**2.

The reduced cross section in the Q**2 regions 1800 to 2500 and 2500 to 3500GeV**2.

The reduced cross section in the Q**2 regions 3500 to 5600 and 5600 to 9000GeV**2.

The reduced cross section in the Q**2 regions 9000 to 15000 ,15000 to 25000and 125000 to 50000 GeV**2.

The structure function XF3 determined tegether with the ZEUS E+ P data at the mean Q**2 values of 1500 and 3000 GeV**2.

The structure function XF3 determined tegether with the ZEUS E+ P data at the mean Q**2 values of 5000 and 8000 GeV**2.

The structure function XF3 determined tegether with the ZEUS E+ P data at the mean Q**2 values of 12000 and 30000 GeV**2.

Details of the systematic uncertainties for the cross section DSIG/DQ**2 measurement.

Details of the systematic uncertainties for the cross section DSIG/DX measurement.

Details of the systematic uncertainties for the cross section DSIG/DX measurement.

Details of the systematic uncertainties for the cross section DSIG/DY measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Details of the systematic uncertainties in the reduced cross section measurement.

Correlation matrix of negative systematic uncertainties.

The measured values of the X distribution.

The measured values of the LN(1/X) distribution.

Differential cross section w.r.t. Q**2.

Differential cross section w.r.t. W.

Differential cross section w.r.t. X(C=POMERON).

Differential cross section w.r.t. BETA.

Differential cross section w.r.t. PT(D*+-).

Differential cross section w.r.t. ETARAP.

Measured values of the reduced cross section.

Measured values of the reduced cross section.

Measured values of the reduced cross section.

Uncertainties on the differential cross section DSIG/DQ**2.

Uncertainties on the differential cross section DSIG/DX.

Uncertainties on the differential cross section DSIG/DY.

Uncertainties in the reduced cross section.

The measured value of F2 and DSIG/DX for the SW data sample in the Q**2 range 15 to 30 GeV**2.

The measured value of F2 and DSIG/DX for the FD data sample in the Q**2 range 30 to 50 GeV**2.

The measured value of F2 and DSIG/DX for the FD data sample in the Q**2 range 50 to 150 GeV**2.

The measured value of F2 and DSIG/DX for the EE data sample in the Q**2 range 400 to 2350 GeV**2.

Statistical correlation between the bins for mean Q**2 value 12.1 GeV**2.

Statistical correlation between the bins for mean Q**2 value 19.9 GeV**2.

Statistical correlation between the bins for mean Q**2 value 39.7 GeV**2.

Statistical correlation between the bins for mean Q**2 value 76.4 GeV**2.

Statistical correlation between the bins for mean Q**2 value 780 GeV**2.

F2 and DSIG/DX over the full X range 0.10 to 0.60 as a function of Q**2.

Differential cross section as a function of W.

Differential cross section as a function of DELTA(PHI), where DELTA(PHI) is the angle between the azimuthal angles of the two virtual photons.

Differential cross section as a function of YBAR, where YBAR is defined as LN(W**2/SQRT(Q1**2 * Q2**2)).

Cross section as a function of X where X is the maximum value of X1 or X2, the upper and lower vertex values.

Cross section as a function of Q**2 where Q**2 is the maximum value of Q1**2 or Q2**2, the upper and lower vertex values.

Cross section as a function of W.

Cross section as a function of DELTA(PHI), where DELTA(PHI) is the angle between the azimuthal angles of the two virtual photons.

Cross section as a function of YBAR, where YBAR is defined as LN(W**2/SQRT(Q1**2 * Q2**2)).

Dijet cross section as a function of LOG10(XI), in the Q**2 range 10 to 15.8 GeV**2.

Dijet cross section as a function of LOG10(XI), in the Q**2 range 15.8 to 25.1 GeV**2.

Dijet cross section as a function of LOG10(XI), in the Q**2 range 25.1 to 39.8 GeV**2.

Dijet cross section as a function of LOG10(XI), in the Q**2 range 39.8 to 63.1 GeV**2.

Dijet cross section as a function of LOG10(XI), in the Q**2 range 63.1 to 100 GeV**2.

Dijet cross section as a function of LOG10(XI), in the Q**2 range 100 to 214 GeV**2.. XI = X*(1+M(P_4_5)**2/Q**2.

Dijet cross section as a function of LOG10(XI), in the Q**2 range 214 to 468 GeV**2.

Dijet cross section as a function of LOG10(XI), in the Q**2 range 468 to 1000 GeV**2.

Dijet cross section as a function of LOG10(XI), in the Q**2 range 1000 to 3162 GeV**2.

Dijet cross section as a function of LOG10(XI), in the Q**2 range 3162 to 10000 GeV**2.