Saved in:
Bibliographic Details
Main Authors: Amoroso, Simone, Andari, Nansi, Barter, William, Bendavid, Josh, Boonekamp, Maarten, Farry, Stephen, Gruenewald, Martin, Hays, Chris, Hunter, Ross, Kretzschmar, Jan, Lupton, Oliver, Pili, Martina, Pernas, Miguel Ramos, Tuchming, Boris, Vesterinen, Mika, Vicini, Alessandro, Wang, Chen, Xu, Menglin
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2308.09417
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866908619267637248
author Amoroso, Simone
Andari, Nansi
Barter, William
Bendavid, Josh
Boonekamp, Maarten
Farry, Stephen
Gruenewald, Martin
Hays, Chris
Hunter, Ross
Kretzschmar, Jan
Lupton, Oliver
Pili, Martina
Pernas, Miguel Ramos
Tuchming, Boris
Vesterinen, Mika
Vicini, Alessandro
Wang, Chen
Xu, Menglin
author_facet Amoroso, Simone
Andari, Nansi
Barter, William
Bendavid, Josh
Boonekamp, Maarten
Farry, Stephen
Gruenewald, Martin
Hays, Chris
Hunter, Ross
Kretzschmar, Jan
Lupton, Oliver
Pili, Martina
Pernas, Miguel Ramos
Tuchming, Boris
Vesterinen, Mika
Vicini, Alessandro
Wang, Chen
Xu, Menglin
contents The compatibility of W-boson mass measurements performed by the ATLAS, LHCb, CDF, and D0 experiments is studied using a coherent framework with theory uncertainty correlations. The measurements are combined using a number of recent sets of parton distribution functions (PDF), and are further combined with the average value of measurements from the Large Electron-Positron collider. The considered PDF sets generally have a low compatibility with a suite of global rapidity-sensitive Drell-Yan measurements. The most compatible set is CT18 due to its larger uncertainties. A combination of all mW measurements yields a value of mW = 80394.6 +- 11.5 MeV with the CT18 set, but has a probability of compatibility of 0.5% and is therefore disfavoured. Combinations are performed removing each measurement individually, and a 91% probability of compatibility is obtained when the CDF measurement is removed. The corresponding value of the W boson mass is 80369.2 +- 13.3 MeV, which differs by 3.6 sigma from the CDF value determined using the same PDF set.
format Preprint
id arxiv_https___arxiv_org_abs_2308_09417
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Compatibility and combination of world W-boson mass measurements
Amoroso, Simone
Andari, Nansi
Barter, William
Bendavid, Josh
Boonekamp, Maarten
Farry, Stephen
Gruenewald, Martin
Hays, Chris
Hunter, Ross
Kretzschmar, Jan
Lupton, Oliver
Pili, Martina
Pernas, Miguel Ramos
Tuchming, Boris
Vesterinen, Mika
Vicini, Alessandro
Wang, Chen
Xu, Menglin
High Energy Physics - Experiment
The compatibility of W-boson mass measurements performed by the ATLAS, LHCb, CDF, and D0 experiments is studied using a coherent framework with theory uncertainty correlations. The measurements are combined using a number of recent sets of parton distribution functions (PDF), and are further combined with the average value of measurements from the Large Electron-Positron collider. The considered PDF sets generally have a low compatibility with a suite of global rapidity-sensitive Drell-Yan measurements. The most compatible set is CT18 due to its larger uncertainties. A combination of all mW measurements yields a value of mW = 80394.6 +- 11.5 MeV with the CT18 set, but has a probability of compatibility of 0.5% and is therefore disfavoured. Combinations are performed removing each measurement individually, and a 91% probability of compatibility is obtained when the CDF measurement is removed. The corresponding value of the W boson mass is 80369.2 +- 13.3 MeV, which differs by 3.6 sigma from the CDF value determined using the same PDF set.
title Compatibility and combination of world W-boson mass measurements
topic High Energy Physics - Experiment
url https://arxiv.org/abs/2308.09417