Measured unfolded differential cross-section as a function of the dilepton transverse momentum $p^{ll}_{\mathrm{T}}$. NLO predictions from Sherpa 2.2.10 and MadGraph5_aMC@NLO 2.7.3 are also shown. The uncertainty in the predictions is divided into statistical and theoretical uncertainties (scale and PDF+$\alpha_{s}$).

Measured unfolded differential cross-section as a function of the the four-body transverse momentum $p^{ll\gamma\gamma}_{\mathrm{T}}$. NLO predictions from Sherpa 2.2.10 and MadGraph5_aMC@NLO 2.7.3 are also shown. The uncertainty in the predictions is divided into statistical and theoretical uncertainties (scale and PDF+$\alpha_{s}$).

Measured unfolded differential cross-section as a function of the diphoton invariant mass $m_{\gamma\gamma}$. NLO predictions from Sherpa 2.2.10 and MadGraph5_aMC@NLO 2.7.3 are also shown. The uncertainty in the predictions is divided into statistical and theoretical uncertainties (scale and PDF+$\alpha_{s}$).

Measured unfolded differential cross-section as a function of the four-body invariant mass $m_{ll\gamma\gamma}$. NLO predictions from Sherpa 2.2.10 and MadGraph5_aMC@NLO 2.7.3 are also shown. The uncertainty in the predictions is divided into statistical and theoretical uncertainties (scale and PDF+$\alpha_{s}$).

Expected and observed $95\%$ confidence intervals for the coupling parameters $f_{T,j}/\Lambda^{4}$ of transverse dimension-8 operators. All parameter values outside of the stated range are excluded at the chosen confidence level. No unitarity constraints are applied.

Expected and observed unitarised $95\%$ confidence intervals for the coupling parameter $f_{T,8}/\Lambda^{4}$ in the clipping energy range between 1.1 and 5 TeV. The non-unitarised limits ($E_c = \infty$) are also shown. All parameter values outside of the stated range are excluded at the chosen confidence level.

Expected and observed unitarised $95\%$ confidence intervals for the coupling parameter $f_{T,0}/\Lambda^{4}$ in the clipping energy range between 1.1 and 5 TeV. The non-unitarised limits ($E_c = \infty$) are also shown. All parameter values outside of the stated range are excluded at the chosen confidence level.

Expected and observed unitarised $95\%$ confidence intervals for the coupling parameter $f_{T,1}/\Lambda^{4}$ in the clipping energy range between 1.1 and 5 TeV. The non-unitarised limits ($E_c = \infty$) are also shown. All parameter values outside of the stated range are excluded at the chosen confidence level.

Expected and observed unitarised $95\%$ confidence intervals for the coupling parameter $f_{T,2}/\Lambda^{4}$ in the clipping energy range between 1.1 and 5 TeV. The non-unitarised limits ($E_c = \infty$) are also shown. All parameter values outside of the stated range are excluded at the chosen confidence level.

Expected and observed unitarised $95\%$ confidence intervals for the coupling parameter $f_{T,5}/\Lambda^{4}$ in the clipping energy range between 1.1 and 5 TeV. The non-unitarised limits ($E_c = \infty$) are also shown. All parameter values outside of the stated range are excluded at the chosen confidence level.

Expected and observed unitarised $95\%$ confidence intervals for the coupling parameter $f_{T,6}/\Lambda^{4}$ in the clipping energy range between 1.1 and 5 TeV. The non-unitarised limits ($E_c = \infty$) are also shown. All parameter values outside of the stated range are excluded at the chosen confidence level.

Expected and observed unitarised $95\%$ confidence intervals for the coupling parameter $f_{T,7}/\Lambda^{4}$ in the clipping energy range between 1.1 and 5 TeV. The non-unitarised limits ($E_c = \infty$) are also shown. All parameter values outside of the stated range are excluded at the chosen confidence level.

Expected and observed unitarised $95\%$ confidence intervals for the coupling parameter $f_{T,9}/\Lambda^{4}$ in the clipping energy range between 1.1 and 5 TeV. The non-unitarised limits ($E_c = \infty$) are also shown. All parameter values outside of the stated range are excluded at the chosen confidence level.

$W$ dependence of the differential cross section ${\rm d}\sigma/{\rm d}|\cos\theta^*|$ in five $|\cos\theta^*|$ bins for $Q^2$=6.89 GeV$^2$.

$W$ dependence of the differential cross section ${\rm d}\sigma/{\rm d}|\cos\theta^*|$ in five $|\cos\theta^*|$ bins for $Q^2$=8.92 GeV$^2$.

$W$ dependence of the differential cross section ${\rm d}\sigma/{\rm d}|\cos\theta^*|$ in five $|\cos\theta^*|$ bins for $Q^2$=10.93 GeV$^2$.

$W$ dependence of the differential cross section ${\rm d}\sigma/{\rm d}|\cos\theta^*|$ in five $|\cos\theta^*|$ bins for $Q^2$=13.37 GeV$^2$.

$W$ dependence of the differential cross section ${\rm d}\sigma/{\rm d}|\cos\theta^*|$ in five $|\cos\theta^*|$ bins for $Q^2$=17.23 GeV$^2$.

$W$ dependence of the differential cross section ${\rm d}\sigma/{\rm d}|\cos\theta^*|$ in five $|\cos\theta^*|$ bins for $Q^2$=24.25 GeV$^2$.

$W$ dependence of the integrated cross section in nine $Q^2$ bins.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.16-1.17, 1.17-1.18 and 1.18-1.19.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.19-1.20, 1.20-1.21 and 1.21-1.22.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.22-1.23, 1.23-1.24 and 1.24-1.25.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.25-1.26, 1.26-1.27 and 1.27-1.28.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.28-1.29, 1.29-1.30 and 1.30-1.31.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.31-1.32, 1.32-1.33 and 1.33-1.34.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.34-1.35, 1.35-1.36 and 1.36-1.37.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.37-1.38, 1.38-1.39 and 1.39-1.40.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.40-1.41, 1.41-1.42 and 1.42-1.43.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.43-1.44, 1.44-1.45 and 1.45-1.46.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.46-1.47, 1.47-1.48 and 1.48-1.49.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.49-1.50, 1.50-1.51 and 1.51-1.52.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.52-1.53, 1.53-1.54 and 1.54-1.55.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.55-1.56, 1.56-1.57 and 1.57-1.58.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.58-1.59, 1.59-1.60 and 1.60-1.61.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.61-1.62, 1.62-1.63 and 1.63-1.64.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.64-1.65, 1.65-1.66 and 1.66-1.67.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.67-1.68, 1.68-1.69 and 1.69-1.70.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.70-1.71, 1.71-1.72 and 1.72-1.73.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.73-1.74, 1.74-1.75 and 1.75-1.76.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.76-1.77, 1.77-1.78 and 1.78-1.79.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.79-1.80, 1.80-1.81 and 1.81-1.82.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.82-1.83, 1.83-1.84 and 1.84-1.85.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.85-1.86, 1.86-1.87 and 1.87-1.88.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.88-1.89, 1.89-1.90 and 1.90-1.92.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.92-1.94, 1.94-1.96 and 1.96-1.98.

The cos(Theta*) dependence of the differential cross section for the W ranges 1.98-2.00, 2.00-2.02 and 2.02-2.04.

The cos(Theta*) dependence of the differential cross section for the W ranges 2.04-2.06, 2.06-2.08 and 2.08-2.10.

The cos(Theta*) dependence of the differential cross section for the W ranges 2.10-2.12, 2.12-2.14 and 2.14-2.16.

The cos(Theta*) dependence of the differential cross section for the W ranges 2.16-2.18, 2.18-2.20 and 2.20-2.22.

The cos(Theta*) dependence of the differential cross section for the W ranges 2.22-2.24, 2.24-2.26 and 2.26-2.28.

The cos(Theta*) dependence of the differential cross section for the W ranges 2.28-2.30, 2.30-2.32 and 2.32-2.34.

The cos(Theta*) dependence of the differential cross section for the W ranges 2.34-2.36, 2.36-2.38 and 2.38-2.40.

The cos(Theta*) dependence of the differential cross section for the W ranges 2.40-2.44, 2.44-2.48 and 2.48-2.52.

The cos(Theta*) dependence of the differential cross section for the W ranges 2.52-2.56, 2.56-2.60 and 2.60-2.70.

The cos(Theta*) dependence of the differential cross section for the W ranges 2.70-2.80, 2.80-2.90 and 2.90-3.00.

The cos(Theta*) dependence of the differential cross section for the W ranges 3.00-3.10, 3.10-3.20 and 3.20-3.30.

Angular dependence of the differential cross section for the W range 1.160 to 1.200 GeV.

Angular dependence of the differential cross section for the W range 1.200 to 1.240 GeV.

Angular dependence of the differential cross section for the W range 1.240 to 1.280 GeV.

Angular dependence of the differential cross section for the W range 1.280 to 1.320 GeV.

Angular dependence of the differential cross section for the W range 1.320 to 1.360 GeV.

Angular dependence of the differential cross section for the W range 1.360 to 1.400 GeV.

Angular dependence of the differential cross section for the W range 1.400 to 1.440 GeV.

Angular dependence of the differential cross section for the W range 1.440 to 1.480 GeV.

Angular dependence of the differential cross section for the W range 1.480 to 1.520 GeV.

Angular dependence of the differential cross section for the W range 1.520 to 1.560 GeV.

Angular dependence of the differential cross section for the W range 1.560 to 1.600 GeV.

Angular dependence of the differential cross section for the W range 1.600 to 1.640 GeV.

Angular dependence of the differential cross section for the W range 1.640 to 1.680 GeV.

Angular dependence of the differential cross section for the W range 1.680 to 1.720 GeV.

Angular dependence of the differential cross section for the W range 1.720 to 1.760 GeV.

Angular dependence of the differential cross section for the W range 1.760 to 1.800 GeV.

Angular dependence of the differential cross section for the W range 1.800 to 1.840 GeV.

Angular dependence of the differential cross section for the W range 1.840 to 1.880 GeV.

Angular dependence of the differential cross section for the W range 1.880 to 1.920 GeV.

Angular dependence of the differential cross section for the W range 1.920 to 1.960 GeV.

Angular dependence of the differential cross section for the W range 1.960 to 2.000 GeV.

Angular dependence of the differential cross section for the W range 2.000 to 2.040 GeV.

Angular dependence of the differential cross section for the W range 2.040 to 2.080 GeV.

Angular dependence of the differential cross section for the W range 2.080 to 2.120 GeV.

Angular dependence of the differential cross section for the W range 2.120 to 2.160 GeV.

Angular dependence of the differential cross section for the W range 2.160 to 2.200 GeV.

Angular dependence of the differential cross section for the W range 2.200 to 2.240 GeV.

Angular dependence of the differential cross section for the W range 2.240 to 2.280 GeV.

Angular dependence of the differential cross section for the W range 2.280 to 2.320 GeV.

Angular dependence of the differential cross section for the W range 2.320 to 2.360 GeV.

Angular dependence of the differential cross section for the W range 2.360 to 2.400 GeV.

Angular dependence of the differential cross section for the W range 2.400 to 2.500 GeV.

Angular dependence of the differential cross section for the W range 2.500 to 2.600 GeV.

Angular dependence of the differential cross section for the W range 2.600 to 2.700 GeV.

Angular dependence of the differential cross section for the W range 2.700 to 2.800 GeV.

Angular dependence of the differential cross section for the W range 2.800 to 2.900 GeV.

Angular dependence of the differential cross section for the W range 2.900 to 3.000 GeV.

Angular dependence of the differential cross section for the W range 3.000 to 3.100 GeV.

Angular dependence of the differential cross section for the W range 3.100 to 3.200 GeV.

Angular dependence of the differential cross section for the W range 3.200 to 3.300 GeV.

Distribution of the total energy outside the reconstructed jets for the completed data samples. Also tabulated is the estimated background.

Distribution of the total energy outside the reconstructed jets for the 'Dir' domain. Also tabulated is the estimated background.

Distribution of the total energy outside the reconstructed jets for the 'SR' domain. Also tabulated is the estimated background.

Distribution of the total energy outside the reconstructed jets for the 'DR' domain. Also tabulated is the estimated background.

Observed distribution of the charged particle multiplicity.

Observed distribution of the charged particle invariant mass.

Observed distribution of the mean of X(C=GAMMA-PLUS) and X(GAMMA-MINUS).

Observed mean number of particles in the reconstructed jets.

Differential cross section for W = 0.79, 0.81 and 0.83 GeV.

Differential cross section for W = 0.85, 0.87 and 0.89 GeV.

Differential cross section for W = 0.91, 0.93 and 0.95 GeV.

Differential cross section for W = 0.97, 0.99 and 1.01 GeV.

Differential cross section for W = 1.03, 1.05 and 1.07 GeV.

Differential cross section for W = 1.09, 1.11 and 1.13 GeV.

Differential cross section for W = 1.15, 1.17 and 1.19 GeV.

Differential cross section for W = 1.21, 1.23 and 1.25 GeV.

Differential cross section for W = 1.27, 1.29 and 1.31 GeV.

Differential cross section for W = 1.33, 1.35 and 1.37 GeV.

Differential cross section for W = 1.39, 1.41 and 1.43 GeV.

Differential cross section for W = 1.45, 1.47 and 1.49 GeV.

Differential cross section for W = 1.51, 1.53 and 1.55 GeV.

Differential cross section for W = 1.57, 1.59 and 1.62 GeV.

Differential cross section for W = 1.66, 1.70 and 1.74 GeV.

Differential cross section for W = 1.78, 1.82 and 1.86 GeV.

Differential cross section for W = 1.90, 1.94 and 1.98 GeV.

Differential cross section for W = 2.02, 2.06 and 2.10 GeV.

Differential cross section for W = 2.14, 2.18 and 2.22 GeV.

Differential cross section for W = 2.26, 2.30 and 2.34 GeV.

Differential cross section for W = 2.38, 2.45 and 2.55 GeV.

Differential cross section for W = 2.65, 2.75 and 2.85 GeV.

Differential cross section for W = 2.95, 3.05 and 3.15 GeV.

Differential cross section for W = 3.25, 3.65 and 3.75 GeV.

Differential cross section for W = 3.85 and 3.95 GeV.

Total cross section for the cos(theta*) ranges 0.0 to 0.6 and 0.0 to 0.8.

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Angular distribution of the cross section in the W range 2.6 to 2.8 GeV.

Angular distribution of the cross section in the W range 2.8 to 3.3 GeV.

Angular distribution of the cross section in the ABS(W-M(CHI(C0))) range < 66 MeV.

Angular distribution of the cross section in the ABS(W-M(CHI(C2))) range < 36 MeV.