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 $p_{\mathrm{T}}^{e\mu}$

Two jet cross section D(SIG)/DET(P=5,RF=CM) as a function of ET(P=5,RF=CM).

Two jet cross section D(SIG)/DETARAP(P=4,RF=LAB) as a function of ETARAP(P=4,RF=LAB).

Two jet cross section D(SIG)/DETARAP(P=5,RF=LAB) as a function of ETARAP(P=5,RF=LAB).

Two jet cross section D(SIG)/D(ETARAP(P=4,RF=CM)-ETARAP(P=5,RF=CM)) as a function of ETARAP(P=4,RF=LAB)-ETARAP(P=5,RF=LAB).

Two jet cross section D2(SIG)/D(ET(P=4,RF=CM)-ET(P=5,RF=CM))/DX as a function of ET(P=4,RF=CM)-ET(P=5,RF=CM).

Two jet cross section D2(SIG)/D(ET(P=4,RF=CM)-ET(P=5,RF=CM))/DX as a function of ET(P=4,RF=CM)-ET(P=5,RF=CM).

Two jet cross section D2(SIG)/D(ET(P=4,RF=CM)-ET(P=5,RF=CM))/DX as a function of ET(P=4,RF=CM)-ET(P=5,RF=CM).

Two jet cross section D2(SIG)/D(ET(P=4,RF=CM)-ET(P=5,RF=CM))/DX as a function of ET(P=4,RF=CM)-ET(P=5,RF=CM).

Two jet cross section D2(SIG)/D(ET(P=4,RF=CM)-ET(P=5,RF=CM))/DX as a function of ET(P=4,RF=CM)-ET(P=5,RF=CM).

Two jet cross section D2(SIG)/D(PT(P=4,RF=CM)-PT(P=5,RF=CM))/DX as a function of PT(P=4,RF=CM)-PT(P=5,RF=CM).

Two jet cross section D2(SIG)/D(PT(P=4,RF=CM)-PT(P=5,RF=CM))/DX as a function of PT(P=4,RF=CM)-PT(P=5,RF=CM).

Two jet cross section D2(SIG)/D(PT(P=4,RF=CM)-PT(P=5,RF=CM))/DX as a function of PT(P=4,RF=CM)-PT(P=5,RF=CM).

Two jet cross section D2(SIG)/D(PT(P=4,RF=CM)-PT(P=5,RF=CM))/DX as a function of PT(P=4,RF=CM)-PT(P=5,RF=CM).

Two jet cross section D2(SIG)/D(PT(P=4,RF=CM)-PT(P=5,RF=CM))/DX as a function of PT(P=4,RF=CM)-PT(P=5,RF=CM).

Two jet cross section D2(SIG)/DABS((PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM))/DX as a function of ABS(PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM).

Two jet cross section D2(SIG)/DABS((PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM))/DX as a function of ABS(PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM).

Two jet cross section D2(SIG)/DABS((PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM))/DX as a function of ABS(PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM).

Two jet cross section D2(SIG)/DABS((PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM))/DX as a function of ABS(PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM).

Two jet cross section D2(SIG)/DABS((PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM))/DX as a function of ABS(PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM).

Two jet cross section D2(SIG)/D(PHI(P=4,RF=CM)-PHI(P=5,RF=CM))/DX as a function of PHI(P=4,RF=CM)-PHI(P=5,RF=CM).

Two jet cross section D2(SIG)/D(PHI(P=4,RF=CM)-PHI(P=5,RF=CM))/DX as a function of PHI(P=4,RF=CM)-PHI(P=5,RF=CM).

Two jet cross section D2(SIG)/D(PHI(P=4,RF=CM)-PHI(P=5,RF=CM))/DX as a function of PHI(P=4,RF=CM)-PHI(P=5,RF=CM).

Two jet cross section D2(SIG)/D(PHI(P=4,RF=CM)-PHI(P=5,RF=CM))/DX as a function of PHI(P=4,RF=CM)-PHI(P=5,RF=CM).

Two jet cross section D2(SIG)/D(PHI(P=4,RF=CM)-PHI(P=5,RF=CM))/DX as a function of PHI(P=4,RF=CM)-PHI(P=5,RF=CM).

Two jet cross section D2(SIG)/DQ**2/DX as a function of X.

Two jet cross section D2(SIG)/DQ**2/DX as a function of X.

Two jet cross section D2(SIG)/DQ**2/DX as a function of X.

Two jet cross section D2(SIG)/DQ**2/DX as a function of X.

Two jet cross section D2(SIG)/DQ**2/DX as a function of X.

Three jet cross section D(SIG)/DQ**2 as a function of Q**2.

Three jet cross section D(SIG)/DX as a function of X.

Three jet cross section D(SIG)/DET(P=4,RF=CM) as a function of ET(P=4,RF=CM).

Three jet cross section D(SIG)/DET(P=5,RF=CM) as a function of ET(P=5,RF=CM).

Three jet cross section D(SIG)/DET(P=6,RF=CM) as a function of ET(P=6,RF=CM).

Three jet cross section D(SIG)/DETARAP(P=4,RF=LAB) as a function of ETARAP(P=4,RF=LAB).

Three jet cross section D(SIG)/DETARAP(P=5,RF=LAB) as a function of ETARAP(P=5,RF=LAB).

Three jet cross section D(SIG)/DETARAP(P=6,RF=LAB) as a function of ETARAP(P=6,RF=LAB).

Three jet cross section D(SIG)/D(ETARAP(P=4,RF=CM)-ETARAP(P=5,RF=CM)) as a function of ETARAP(P=4,RF=LAB)-ETARAP(P=5,RF=LAB).

Three jet cross section D2(SIG)/D(ET(P=4,RF=CM)-ET(P=5,RF=CM))/DX as a function of ET(P=4,RF=CM)-ET(P=5,RF=CM).

Three jet cross section D2(SIG)/D(ET(P=4,RF=CM)-ET(P=5,RF=CM))/DX as a function of ET(P=4,RF=CM)-ET(P=5,RF=CM).

Three jet cross section D2(SIG)/D(ET(P=4,RF=CM)-ET(P=5,RF=CM))/DX as a function of ET(P=4,RF=CM)-ET(P=5,RF=CM).

Three jet cross section D2(SIG)/D(ET(P=4,RF=CM)-ET(P=5,RF=CM))/DX as a function of ET(P=4,RF=CM)-ET(P=5,RF=CM).

Three jet cross section D2(SIG)/D(ET(P=4,RF=CM)-ET(P=5,RF=CM))/DX as a function of ET(P=4,RF=CM)-ET(P=5,RF=CM).

Three jet cross section D2(SIG)/D(PT(P=4,RF=CM)-PT(P=5,RF=CM))/DX as a function of PT(P=4,RF=CM)-PT(P=5,RF=CM).

Three jet cross section D2(SIG)/D(PT(P=4,RF=CM)-PT(P=5,RF=CM))/DX as a function of PT(P=4,RF=CM)-PT(P=5,RF=CM).

Three jet cross section D2(SIG)/D(PT(P=4,RF=CM)-PT(P=5,RF=CM))/DX as a function of PT(P=4,RF=CM)-PT(P=5,RF=CM).

Three jet cross section D2(SIG)/D(PT(P=4,RF=CM)-PT(P=5,RF=CM))/DX as a function of PT(P=4,RF=CM)-PT(P=5,RF=CM).

Three jet cross section D2(SIG)/D(PT(P=4,RF=CM)-PT(P=5,RF=CM))/DX as a function of PT(P=4,RF=CM)-PT(P=5,RF=CM).

Three jet cross section D2(SIG)/DABS((PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM))/DX as a function of (PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM).

Three jet cross section D2(SIG)/DABS((PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM))/DX as a function of (PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM).

Three jet cross section D2(SIG)/DABS((PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM))/DX as a function of (PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM).

Three jet cross section D2(SIG)/DABS((PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM))/DX as a function of (PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM).

Three jet cross section D2(SIG)/DABS((PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM))/DX as a function of (PT(P=4,RF=CM)-PT(P=5,RF=CM))/2*ET(P=4,RF=CM).

Three jet cross section D2(SIG)/D(PHI(P=4,RF=CM)-PHI(P=5,RF=CM))/DX as a function of PHI(P=4,RF=CM)-PHI(P=5,RF=CM).

Three jet cross section D2(SIG)/D(PHI(P=4,RF=CM)-PHI(P=5,RF=CM))/DX as a function of PHI(P=4,RF=CM)-PHI(P=5,RF=CM).

Three jet cross section D2(SIG)/D(PHI(P=4,RF=CM)-PHI(P=5,RF=CM))/DX as a function of PHI(P=4,RF=CM)-PHI(P=5,RF=CM).

Three jet cross section D2(SIG)/D(PHI(P=4,RF=CM)-PHI(P=5,RF=CM))/DX as a function of PHI(P=4,RF=CM)-PHI(P=5,RF=CM).

Three jet cross section D2(SIG)/D(PHI(P=4,RF=CM)-PHI(P=5,RF=CM))/DX as a function of PHI(P=4,RF=CM)-PHI(P=5,RF=CM).

Three jet cross section D2(SIG)/DQ**2/DX as a function of X.

Three jet cross section D2(SIG)/DQ**2/DX as a function of X.

Three jet cross section D2(SIG)/DQ**2/DX as a function of X.

Three jet cross section D2(SIG)/DQ**2/DX as a function of X.

Three jet cross section D2(SIG)/DQ**2/DX as a function of X.

Differential cross sections for D0 production from the (K- PI+ PI+ PI-) decay mode.

Differential cross sections for D*+ production from the ((K- PI+) PI+) decay mode.

Differential cross sections for D*+ production from the ((K- PI+ PI+ PI-) PI+) decay mode.

Differential cross sections for D*0 production from the ((K- PI+) PI0) decay mode.

Differential cross sections for D*0 production from the ((K- PI+ PI+ PI-) PI0) decay mode.

Averaged differential cross sections for the four different processes. The error is the quadratic combination of statistical and systematic error, excluding those errors common to all momenta which affect the total cross section but not the shape.

Statistical errors only.

Statistical errors only.