Postfit pulls, constraints, and impacts (both nominal and 'global') for all nuisance parameters in the W-like Z boson mass fit (flip odd/even events to choose muon charge), sorted by the absolute value of the nominal impact.

Postfit pulls, constraints, and impacts (both nominal and 'global') for all nuisance parameters in the W-like Z boson mass fit (charge difference), sorted by the absolute value of the nominal impact.

Postfit pulls, constraints, and impacts (only nominal) for all nuisance parameters in the Z boson mass fit (using dimuon mass), sorted by the absolute value of the nominal impact.

Postfit pulls, constraints, and impacts (only nominal) for all nuisance parameters in the W boson mass fit (helicity cross section fit), sorted by the absolute value of the nominal impact.

$d\sigma^{W}/d\mathit{p}_{T}\ (pb\,/\,GeV)$: Generator-level $\mathit{p}_{T}^{W}$ distribution and uncertainty. The last column reports the result of a simultaneous fit to the single muon $(\mathit{p}_{T}^{μ}, \mathit{\eta}^{μ}, \mathit{q}^{μ})$ distribution in $W$ boson decays and the dimuon $(\mathit{p}_{T}^{μμ},\mathit{y}^{μμ})$ distribution in $Z$ boson events. The measured cross section in each bin is reported after dividing the value by the corresponding bin width.

$d\sigma^{Z}/d|\mathit{y}|\ (pb)$: Unfolded measured $\mathit{y}^{Z}$ distribution compared with the generator-level predictions before the likelihood fit or after the W-like $\mathit{m}_{Z}$ fit or from the direct fit to the $(\mathit{p}_{T}^{μμ},\mathit{y}^{μμ})$ distribution. The measured cross section in each bin is reported after dividing the value by the corresponding bin width.

$d\sigma^{Z}/d\mathit{p}_{T}\ (pb\,/\,GeV)$: Unfolded measured $\mathit{p}_{T}^{Z}$ distribution compared with the generator-level predictions before the likelihood fit or after the W-like $\mathit{m}_{Z}$ fit or from the direct fit to the $(\mathit{p}_{T}^{μμ},\mathit{y}^{μμ})$ distribution. The measured cross section in each bin is reported after dividing the value by the corresponding bin width.

$d\sigma^{W}/d\mathit{p}_{T}\ (pb\,/\,GeV)$: Generator-level $\mathit{p}_{T}^{W}$ distribution and uncertainty, before and after running the helicity fit. The measured cross section in each bin is reported after dividing the value by the corresponding bin width.

$d\sigma^{W}/d|\mathit{y}|\ (pb)$: Generator-level $\mathit{y}^{Z}$ distribution and uncertainty, before and after running the helicity fit. The measured cross section in each bin is reported after dividing the value by the corresponding bin width.

Comparison of the nominal $\mathit{m}_{W}$ measurement and its uncertainty (total or only from $\mathit{p}_{T}^{W}$ modeling), with the alternative measurements using different approaches to the $\mathit{p}_{T}^{W}$ modeling and its uncertainty. The first column reports the measured mass for each configuration, while the second one shows the difference between the measurement and the main result.

Comparison of the nominal $\mathit{m}_{W}$ measurement and its uncertainty (total or only from the CT18Z PDF set), with the alternative measurements using different PDFs and their uncertainty before the scaling procedure described in the paper text. The measured mass values are those reported in Table A.7 of the paper. The first column reports the measured mass for each configuration, while the second one shows the difference between the measurement and the main result.

Comparison of the nominal $\mathit{m}_{W}$ measurement and its uncertainty (total or only from the CT18Z PDF set), with the alternative measurements using different PDFs and their uncertainty after the scaling procedure described in the paper text. The measured mass values are those reported in Table A.7 of the paper. The scale factors for the PDF uncertainties from each set are reported in Table A.3 of the paper. The first column reports the measured mass for each configuration, while the second one shows the difference between the measurement and the main result.

Measured cross section from the helicity fit, divided by bin width, for combination of muon and electron channel

Measured charge asymmetry from the helicity fit for combination of muon and electron channel

Measured cross section from the helicity fit, divided by bin width, for combination of muon and electron channel

Measured cross section from the helicity fit, divided by bin width, for combination of muon and electron channel

Measured charge asymmetry from the helicity fit for combination of muon and electron channel

Measured cross section from the helicity fit, divided by bin width, for combination of muon and electron channel

Measured cross section from the helicity fit, divided by bin width, for combination of muon and electron channel

Measured charge asymmetry from the helicity fit for combination of muon and electron channel

Measured cross section from the helicity fit, divided by bin width, for combination of muon and electron channel

Measured cross section from the helicity fit, divided by bin width, for combination of muon and electron channel

Impact of groups of uncertainties on normalized differential cross section versus $|y_{W}|$ for $W^{-}_{L}$

Impact of groups of uncertainties on charge asymmetry versus $|y_{W}|$ for $W_{L}$

Impact of groups of uncertainties on normalized differential cross section versus $|y_{W}|$ for $W^{+}_{L}$

Impact of groups of uncertainties on normalized differential cross section versus $|y_{W}|$ for $W^{-}_{R}$

Impact of groups of uncertainties on normalized differential cross section versus $|y_{W}|$ for $W^{+}_{R}$

Impact of groups of uncertainties on absolute differential cross section versus $|y_{W}|$ for $W^{+}_{R}$

Impact of groups of uncertainties on absolute differential cross section versus $|y_{W}|$ for $W^{+}_{L}$

Impact of groups of uncertainties on absolute differential cross section versus $|y_{W}|$ for $W^{-}_{L}$

Impact of groups of uncertainties on absolute differential cross section versus $|y_{W}|$ for $W^{-}_{R}$

Impact of groups of uncertainties on charge asymmetry versus $|y_{W}|$ for $W_{R}$

Impact of groups of uncertainties on absolute differential cross section versus $|y_{W}|$ for $W^{+}$

Impact of groups of uncertainties on absolute differential cross section versus $|y_{W}|$ for $W^{+}$

Impact of groups of uncertainties on unpolarized charge asymmetry versus $|y_{W}|$

Impact of groups of uncertainties on normalized differential cross section versus $|y_{W}|$ for $W^{+}$

Impact of groups of uncertainties on normalized differential cross section versus $|y_{W}|$ for $W^{+}$

Impact of groups of uncertainties on $A_{4}$ coefficient versus $|y_{W}|$ for $W^{+}$

Impact of groups of uncertainties on $A_{4}$ coefficient versus $|y_{W}|$ for $W^{+}$

Correlation matrix among normalized signal cross sections in the helicity fit, for combination of muon and electron channel. The cross sections are shown in Fig. 9 in paper

Correlation matrix among normalized signal cross sections in the helicity fit, for combination of muon and electron channel. The cross sections are shown in Fig. 9 in paper

Correlation matrix among PDF nuisances parameters in the helicity fit with fixed signal cross sections, for combination of muon and electron channel. The postfit values for these nuisance parameters are shown in Fig. 20 in paper

Postfit pulls and constraints for some nuisance parameters: $p_T^{W}$ binned $\mu_R$, $\mu_F$, $\mu_R\mu_F$ for $W_R$

Postfit pulls and constraints for some nuisance parameters: $p_T^{W}$ binned $\mu_R$, $\mu_F$, $\mu_R\mu_F$ for $W_L$

Postfit pulls and constraints for some nuisance parameters: PDFs and $\alpha_S$

Postfit pulls and constraints for all nuisance parameters in the W boson helicity fit with fixed signal cross sections, from combination of electron and muon channel. The convention adopted to name nuisance parameters in the tables is reported in glossary_nuisAndPois.txt

Postfit pulls and constraints for all nuisance parameters in the W boson helicity fit with floating signal cross sections, from combination of electron and muon channel. The convention adopted to name nuisance parameters in the tables is reported in glossary_nuisAndPois.txt

Measured double differential cross section from the double-differential cross section fit, divided by 2D-bin area, for combination of muon and electron channel

Measured double differential cross section from the double-differential cross section fit, divided by 2D-bin area, for combination of muon and electron channel

Measured double differential charge asymmetry from the double-differential cross section fit, for combination of muon and electron channel

Measured double differential cross section from the double-differential cross section fit, divided by 2D-bin area, for combination of muon and electron channel

Measured double differential cross section from the double-differential cross section fit, divided by 2D-bin area, for combination of muon and electron channel

Measured differential cross section from the double-differential cross section fit, divided by bin width, for combination of muon and electron channel

Measured differential cross section from the double-differential cross section fit, divided by bin width, for combination of muon and electron channel

Measured double differential cross section from the double-differential cross section fit, divided by 2D-bin area, for combination of muon and electron channel

Measured double differential cross section from the double-differential cross section fit, divided by 2D-bin area, for combination of muon and electron channel

Measured differential charge asymmetry from the double-differential cross section fit, for combination of muon and electron channel

Measured differential cross section from the double-differential cross section fit, divided by bin width, for combination of muon and electron channel

Measured differential cross section from the double-differential cross section fit, divided by bin width, for combination of muon and electron channel

Measured fiducial cross sections and ratio from the double-differential cross section fit, for combination of muon and electron channel

Measured differential cross section from the double-differential cross section fit, divided by bin width, for combination of muon and electron channel

Measured differential cross section from the double-differential cross section fit, divided by bin width, for combination of muon and electron channel

Measured differential charge asymmetry from the double-differential cross section fit, for combination of muon and electron channel

Measured differential cross section from the double-differential cross section fit, divided by bin width, for combination of muon and electron channel

Measured differential cross section from the double-differential cross section fit, divided by bin width, for combination of muon and electron channel

Impact of groups of uncertainties on charge asymmetry versus lepton $|\eta|$, for combination of muon and electron channel

Impact of groups of uncertainties on normalized differential cross section versus lepton $|\eta|$, for combination of muon and electron channel

Impact of groups of uncertainties on absolute differential cross section versus lepton $|\eta|$, for combination of muon and electron channel

Impact of groups of uncertainties on absolute differential cross section versus lepton $|\eta|$, for combination of muon and electron channel

Impact of groups of uncertainties on charge asymmetry versus lepton $p_{T}$, for combination of muon and electron channel

Impact of groups of uncertainties on normalized differential cross section versus lepton $p_{T}$, for combination of muon and electron channel

Impact of groups of uncertainties on normalized differential cross section versus lepton $p_{T}$, for combination of muon and electron channel

Impact of groups of uncertainties on absolute differential cross section versus lepton $p_{T}$, for combination of muon and electron channel

Impact of groups of uncertainties on absolute differential cross section versus lepton $p_{T}$, for combination of muon and electron channel

Impact of groups of uncertainties on normalized differential cross section versus lepton $|\eta|$, for combination of muon and electron channel

Postfit pulls and constraints for all nuisance parameters in the W boson double-differential cross section fit with floating signal cross sections, from combination of electron and muon channel. The convention adopted to name nuisance parameters in the tables is reported in glossary_nuisAndPois.txt

Ratio of normalized fiducial differential cross sections of W- boson to W+ boson decaying to muons at pre-FSR level.

Ratio of normalized fiducial differential cross section of Z0 boson to W+ boson and W- boson at pre-FSR level of muon decay channel.

Ratio of the normalized fiducial differential cross section of Z0 boson production at center-of-energy 8 TeV to Z0 boson production at center-of-energy 7 TeV decaying to dimuon for boson PT < 20 GeV.

Ratio of the normalized fiducial differential cross section of Z0 boson production at center-of-energy 8 TeV to Z0 boson production at center-of-energy 7 TeV decaying to dimuon for boson PT > 20 GeV.

Normalized fiducial differential cross sections of W+ boson and W- boson decaying to muon and neutrino at post-FSR level.

Normalized fiducial differential cross sections of Z0 boson decaying to dimuon at post-FSR level.