1993
DOI: 10.1016/0370-2693(93)90210-9
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Measurement of the mass of the Z boson and the energy calibration of LEP

Abstract: Lists of authors can be found in the references listed under [2]

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Cited by 41 publications
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“…9] but ignoring threshold effects from the quark masses. We use results of the OPAL collaboration at LEP, namely M Z = 91.187 (7) GeV [57] and α s (m 2 Z ) = 0.1189 (43) [58] as inputs for the calculation. Using these results is preferable since the measurements from lepton colliders do not depend on complicated parton distribution functions.…”
Section: Constraints and Likelihoodmentioning
confidence: 99%
“…9] but ignoring threshold effects from the quark masses. We use results of the OPAL collaboration at LEP, namely M Z = 91.187 (7) GeV [57] and α s (m 2 Z ) = 0.1189 (43) [58] as inputs for the calculation. Using these results is preferable since the measurements from lepton colliders do not depend on complicated parton distribution functions.…”
Section: Constraints and Likelihoodmentioning
confidence: 99%
“…9) but ignoring threshold effects from the quark masses. 5 We use results of the OPAL collaboration at LEP, namely M Z = 91.187(7) GeV (Arnaudon et al 1993) and α s (m 2 Z ) = 0.1189(43) (Abbiendi et al 2011) as inputs for the calculation. Using these results is preferable since the measurements from lepton colliders do not depend on complicated parton distribution functions.…”
Section: Constraints and Likelihoodmentioning
confidence: 99%