${{\mathit W}}/{{\mathit Z}}$ MASS RATIO

INSPIRE   PDGID:
S043MR
VALUE EVTS DOCUMENT ID TECN  COMMENT
$0.88145$ $\pm0.00013$ 1
PDG
2022
• • We do not use the following data for averages, fits, limits, etc. • •
$0.8821$ $\pm0.0011$ $\pm0.0008$ 28323 2
ABBOTT
1998N
 D0 ${\it{}E}^{\it{}p\overline{\it{}p}}_{\rm{}cm}$= $1.8$ TeV
$0.88114$ $\pm0.00154$ $\pm0.00252$ 5982 3
ABBOTT
1998P
 D0 ${\it{}E}^{\it{}p\overline{\it{}p}}_{\rm{}cm}$= $1.8$ TeV
$0.8813$ $\pm0.0036$ $\pm0.0019$ 156 4
ALITTI
1992B
 UA2 ${\it{}E}^{\it{}p\overline{\it{}p}}_{\rm{}cm}$= 630 GeV
1  This value was obtained using the world average values of ${\mathit m}_{{{\mathit Z}}}$ and ${\mathit m}_{{{\mathit W}}}$ as listed in these listings.
2  ABBOTT 1998N obtain this from a study of 28323 ${{\mathit W}}$ $\rightarrow$ ${{\mathit e}}{{\mathit \nu}_{{e}}}$ and 3294 ${{\mathit Z}}$ $\rightarrow$ ${{\mathit e}^{+}}{{\mathit e}^{-}}$ decays. Of this latter sample, 2179 events are used to calibrate the electron energy scale.
3  ABBOTT 1998P obtain this from a study of 5982 ${{\mathit W}}$ $\rightarrow$ ${{\mathit e}}{{\mathit \nu}_{{e}}}$ events. The systematic error includes an uncertainty of $\pm0.00175$ due to the electron energy scale.
4  Scale error cancels in this ratio.
References:
PDG 2022
PTEP 2022 083C01 Review of Particle Physics
ABBOTT 1998P
PR D58 012002 Determination of the Mass of the ${{\mathit W}}$ Boson using the ${D0}$ Detector at the Tevatron
ABBOTT 1998N
PR D58 092003 A Measurement of the ${{\mathit W}}$ Boson Mass
ALITTI 1992B
PL B276 354 An Improved Determination of the Ratio of ${{\mathit W}}$ and ${{\mathit Z}}$ Masses at the CERN ${{\overline{\mathit p}}}{{\mathit p}}$ Collider