arxiv: 2604.12593 · v1 · submitted 2026-04-14 · ✦ hep-ex

Recognition: unknown

Precision measurement of the muon charge asymmetry from W-boson decays in pp collisions at sqrt{s} = 13 TeV in the forward region

LHCb collaboration: R. Aaij , M. Abdelfatah , A.S.W. Abdelmotteleb , C. Abellan Beteta , F. Abudin\'en , T. Ackernley , A. A. Adefisoye , B. Adeva

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M. Adinolfi P. Adlarson C. Agapopoulou C.A. Aidala Z. Ajaltouni S. Akar K. Akiba P. Albicocco J. Albrecht R. Aleksiejunas F. Alessio P. Alvarez Cartelle R. Amalric S. Amato J.L. Amey Y. Amhis L. An L. Anderlini M. Andersson P. Andreola M. Andreotti S. Andres Estrada A. Anelli D. Ao C. Arata F. Archilli Z. Areg M. Argenton S. Arguedas Cuendis L. Arnone M. Artuso E. Aslanides R. Ata\'ide Da Silva M. Atzeni B. Audurier J. A. Authier D. Bacher I. Bachiller Perea S. Bachmann M. Bachmayer J.J. Back Z. B. Bai P. Baladron Rodriguez V. Balagura A. Balboni W. Baldini Z. Baldwin L. Balzani H. Bao J. Baptista de Souza Leite C. Barbero Pretel M. Barbetti I. R. Barbosa R.J. Barlow M. Barnyakov S. Barsuk W. Barter J. Bartz S. Bashir B. Batsukh P. B. Battista A. Bavarchee A. Bay A. Beck M. Becker F. Bedeschi I.B. Bediaga N. A. Behling S. Belin A. Bellavista I. Belov I. Belyaev G. Benane G. Bencivenni E. Ben-Haim R. Bernet A. Bertolin F. Betti J. Bex O. Bezshyyko S. Bhattacharya M.S. Bieker N.V. Biesuz A. Biolchini M. Birch F.C.R. Bishop A. Bitadze A. Bizzeti T. Blake F. Blanc J.E. Blank S. Blusk J.A. Boelhauve O. Boente Garcia T. Boettcher A. Bohare C. Bolognani R. Bolzonella R. B. Bonacci A. Bordelius F. Borgato S. Borghi M. Borsato J.T. Borsuk E. Bottalico S.A. Bouchiba M. Bovill T.J.V. Bowcock A. Boyer C. Bozzi J. D. Brandenburg A. Brea Rodriguez N. Breer C. Breitfeld J. Brodzicka J. Brown D. Brundu E. Buchanan M. Burgos Marcos C. Burr C. Buti J.S. Butter J. Buytaert W. Byczynski S. Cadeddu H. Cai Y. Cai A. Caillet R. Calabrese L. Calefice M. Calvi M. Calvo Gomez P. Camargo Magalhaes J. I. Cambon Bouzas P. Campana A. C. Campos A.F. Campoverde Quezada Y. Cao S. Capelli M. Caporale L. Capriotti R. Caravaca-Mora A. Carbone L. Carcedo Salgado R. Cardinale A. Cardini P. Carniti L. Carus A. Casais Vidal R. Caspary G. Casse M. Cattaneo G. Cavallero V. Cavallini S. Celani I. Celestino S. Cesare A.J. Chadwick I. Chahrour M. Charles Ph. Charpentier E. Chatzianagnostou R. Cheaib M. Chefdeville C. Chen J. Chen S. Chen Z. Chen A. Chen Hu M. Cherif A. Chernov S. Chernyshenko X. Chiotopoulos G. Chizhik V. Chobanova M. Chrzaszcz V. Chulikov P. Ciambrone X. Cid Vidal G. Ciezarek P. Cifra P.E.L. Clarke M. Clemencic H.V. Cliff J. Closier C. Cocha Toapaxi V. Coco J. Cogan E. Cogneras L. Cojocariu S. Collaviti P. Collins T. Colombo M. Colonna A. Comerma-Montells L. Congedo J. Connaughton A. Contu N. Cooke G. Cordova C. Coronel I. Corredoira A. Correia G. Corti G. C. Costantino J. Cottee Meldrum B. Couturier D.C. Craik N. Crepet M. Cruz Torres M. Cubero Campos E. Curras Rivera R. Currie C.L. Da Silva X. Dai E. Dall'Occo J. Dalseno C. D'Ambrosio J. Daniel G. Darze A. Davidson J.E. Davies O. De Aguiar Francisco C. De Angelis F. De Benedetti J. de Boer K. De Bruyn S. De Capua M. De Cian U. De Freitas Carneiro Da Graca E. De Lucia J.M. De Miranda L. De Paula M. De Serio P. De Simone F. De Vellis J.A. de Vries F. Debernardis D. Decamp S. Dekkers L. Del Buono B. Delaney J. Deng V. Denysenko O. Deschamps F. Dettori B. Dey P. Di Nezza S. Ding Y. Ding L. Dittmann A. D. Docheva A. Doheny C. Dong F. Dordei A.C. dos Reis A. D. Dowling L. Dreyfus W. Duan P. Duda L. Dufour V. Duk P. Durante M. M. Duras J.M. Durham O. D. Durmus A. Dziurda S. Easo E. Eckstein U. Egede S. Eisenhardt E. Ejopu L. Eklund M. Elashri D. Elizondo Blanco J. Ellbracht S. Ely A. Ene J. Eschle T. Evans F. Fabiano S. Faghih L.N. Falcao B. Fang R. Fantechi L. Fantini M. Faria K. Farmer F. Fassin D. Fazzini L. Felkowski C. Feng M. Feng A. Fernandez Casani M. Fernandez Gomez A.D. Fernez F. Ferrari F. Ferreira Rodrigues M. Ferrillo M. Ferro-Luzzi R.A. Fini M. Fiorini M. Firlej K.L. Fischer D.S. Fitzgerald C. Fitzpatrick T. Fiutowski F. Fleuret A. Fomin M. Fontana L. A. Foreman R. Forty D. Foulds-Holt V. Franco Lima M. Franco Sevilla M. Frank E. Franzoso G. Frau C. Frei D.A. Friday J. Fu Q. F\"uhring T. Fulghesu G. Galati M.D. Galati A. Gallas Torreira D. Galli S. Gambetta M. Gandelman P. Gandini B. Ganie H. Gao R. Gao T.Q. Gao Y. Gao L.M. Garcia Martin P. Garcia Moreno J. Garc\'ia Pardi\~nas P. Gardner L. Garrido C. Gaspar A. Gavrikov L.L. Gerken E. Gersabeck M. Gersabeck T. Gershon S. Ghizzo Z. Ghorbanimoghaddam F. I. Giasemis V. Gibson H.K. Giemza A.L. Gilman M. Giovannetti A. Giovent\`u L. Girardey M.A. Giza F.C. Glaser V.V. Gligorov C. G\"obel L. Golinka-Bezshyyko E. Golobardes A. Golutvin S. Gomez Fernandez W. Gomulka F. Goncalves Abrantes I. Gon\c{c}ales Vaz M. Goncerz G. Gong J. A. Gooding C. Gotti E. Govorkova J.P. Grabowski L.A. Granado Cardoso E. Graug\'es E. Graverini L. Grazette G. Graziani A. T. Grecu N.A. Grieser L. Grillo C. Gu M. Guarise L. Guerry A.-K. Guseinov Y. Guz T. Gys K. Habermann T. Hadavizadeh C. Hadjivasiliou G. Haefeli C. Haen S. Haken G. Hallett P.M. Hamilton Q. Han X. Han S. Hansmann-Menzemer N. Harnew T. J. Harris M. Hartmann S. Hashmi J. He N. Heatley A. Hedes F. Hemmer C. Henderson R. Henderson R.D.L. Henderson A.M. Hennequin K. Hennessy J. Herd P. Herrero Gascon J. Heuel A. Heyn A. Hicheur G. Hijano Mendizabal J. Horswill R. Hou Y. Hou D.C. Houston N. Howarth W. Hu X. Hu W. Hulsbergen R.J. Hunter D. Hutchcroft M. Idzik P. Ilten A. Iohner H. Jage S.J. Jaimes Elles S. Jakobsen T. Jakoubek E. Jans A. Jawahery C. Jayaweera A. Jelavic V. Jevtic Z. Jia E. Jiang X. Jiang Y. Jiang Y. J. Jiang E. Jimenez Moya N. Jindal M. John A. John Rubesh Rajan D. Johnson C.R. Jones S. Joshi B. Jost J. Juan Castella N. Jurik I. Juszczak K. Kalecinska D. Kaminaris S. Kandybei M. Kane Y. Kang C. Kar M. Karacson A. Kauniskangas J.W. Kautz M.K. Kazanecki F. Keizer M. Kenzie T. Ketel B. Khanji S. Kholodenko G. Khreich F. Kiraz T. Kirn V.S. Kirsebom S. Klaver N. Kleijne A. Kleimenova D. K. Klekots K. Klimaszewski M.R. Kmiec T. Knospe R. Kolb S. Koliiev L. Kolk A. Konoplyannikov P. Kopciewicz P. Koppenburg A. Korchin I. Kostiuk O. Kot S. Kotriakhova E. Kowalczyk O. Kravcov M. Kreps W. Krupa W. Krzemien O. Kshyvanskyi S. Kubis M. Kucharczyk A. Kupsc V. Kushnir B. Kutsenko J. Kvapil I. Kyryllin D. Lacarrere P. Laguarta Gonzalez A. Lai A. Lampis D. Lancierini C. Landesa Gomez J.J. Lane G. Lanfranchi C. Langenbruch J. Langer T. Latham F. Lazzari C. Lazzeroni R. Le Gac H. Lee R. Lef\`evre M. Lehuraux E. Lemos Cid O. Leroy T. Lesiak E. D. Lesser B. Leverington A. Li C. Li H. Li J. Li K. Li L. Li P. Li P.-R. Li Q. Li T. Li Y. Li Z. Lian Q. Liang X. Liang Z. Liang S. Libralon A. Lightbody C. Lin T. Lin R. Lindner H. Linton R. Litvinov D. Liu F. L. Liu G. Liu K. Liu S. Liu W. Liu Y. Liu Y. L. Liu G. Loachamin Ordonez I. Lobo A. Lobo Salvia A. Loi T. Long F. C. L. Lopes J.H. Lopes A. Lopez Huertas C. Lopez Iribarnegaray Q. Lu C. Lucarelli D. Lucchesi M. Lucio Martinez Y. Luo A. Lupato M. Lupberger E. Luppi K. Lynch S. Lyu X.-R. Lyu H. Ma S. Maccolini F. Machefert F. Maciuc B. Mack I. Mackay L. M. Mackey L.R. Madhan Mohan M. J. Madurai D. Magdalinski J.J. Malczewski S. Malde L. Malentacca G. Manca G. Mancinelli C. Mancuso R. Manera Escalero A. Mangalasseri F. M. Manganella D. Manuzzi S. Mao D. Marangotto J.F. Marchand R. Marchevski U. Marconi E. Mariani S. Mariani C. Marin Benito J. Marks A.M. Marshall L. Martel G. Martelli G. Martellotti L. Martinazzoli M. Martinelli D. Martinez Gomez D. Martinez Santos F. Martinez Vidal A. Martorell i Granollers A. Massafferri R. Matev A. Mathad C. Matteuzzi K.R. Mattioli A. Mauri E. Maurice J. Mauricio P. Mayencourt J. Mazorra de Cos M. Mazurek D. Mazzanti Tarancon M. McCann N.T. McHugh A. McNab R. McNulty B. Meadows D. Melnychuk D. Mendoza Granada P. Menendez Valdes Perez F. M. Meng M. Merk A. Merli L. Meyer Garcia D. Miao H. Miao M. Mikhasenko D.A. Milanes A. Minotti E. Minucci B. Mitreska D.S. Mitzel R. Mocanu A. Modak L. Moeser R.D. Moise E. F. Molina Cardenas T. Momb\"acher M. Monk T. Monnard S. Monteil A. Morcillo Gomez G. Morello M.J. Morello M.P. Morgenthaler A. Moro J. Moron W. Morren A.B. Morris A.G. Morris R. Mountain Z. Mu E. Muhammad F. Muheim M. Mulder K. M\"uller F. Mu\~noz-Rojas V. Mytrochenko P. Naik T. Nakada R. Nandakumar G. Napoletano I. Nasteva M. Needham N. Neri S. Neubert N. Neufeld J. Nicolini D. Nicotra E.M. Niel L. Nisi Q. Niu B. K. Njoki P. Nogarolli P. Nogga C. Normand J. Novoa Fernandez G. Nowak C. Nunez H. N. Nur A. Oblakowska-Mucha T. Oeser O. Okhrimenko R. Oldeman F. Oliva E. Olivart Pino M. Olocco R.H. O'Neil J.S. Ordonez Soto D. Osthues J.M. Otalora Goicochea P. Owen A. Oyanguren O. Ozcelik F. Paciolla A. Padee K.O. Padeken B. Pagare T. Pajero A. Palano L. Palini M. Palutan C. Pan X. Pan S. Panebianco S. Paniskaki L. Paolucci A. Papanestis M. Pappagallo L.L. Pappalardo C. Pappenheimer C. Parkes D. Parmar G. Passaleva D. Passaro A. Pastore M. Patel J. Patoc C. Patrignani A. Paul C.J. Pawley A. Pellegrino J. Peng X. Peng M. Pepe Altarelli S. Perazzini H. Pereira Da Costa M. Pereira Martinez A. Pereiro Castro C. Perez P. Perret A. Perrevoort A. Perro M.J. Peters K. Petridis A. Petrolini S. Pezzulo J. P. Pfaller H. Pham L. Pica M. Piccini L. Piccolo B. Pietrzyk R. N. Pilato D. Pinci F. Pisani M. Pizzichemi V. M. Placinta M. Plo Casasus T. Poeschl F. Polci M. Poli Lener A. Poluektov I. Polyakov E. Polycarpo S. Ponce D. Popov K. Popp K. Prasanth C. Prouve D. Provenzano V. Pugatch A. Puicercus Gomez G. Punzi J.R. Pybus Q. Qian W. Qian N. Qin R. Quagliani R.I. Rabadan Trejo R. Racz J.H. Rademacker M. Rama M. Ram\'irez Garc\'ia V. Ramos De Oliveira M. Ramos Pernas M.S. Rangel G. Raven M. Rebollo De Miguel F. Redi J. Reich F. Reiss Z. Ren P.K. Resmi M. Ribalda Galvez R. Ribatti G. Ricart D. Riccardi S. Ricciardi K. Richardson M. Richardson-Slipper F. Riehn K. Rinnert P. Robbe G. Robertson E. Rodrigues A. Rodriguez Alvarez E. Rodriguez Fernandez J.A. Rodriguez Lopez E. Rodriguez Rodriguez J. Roensch A. Rogovskiy D.L. Rolf P. Roloff V. Romanovskiy A. Romero Vidal G. Romolini F. Ronchetti T. Rong M. Rotondo M.S. Rudolph M. Ruiz Diaz R.A. Ruiz Fernandez J. Ruiz Vidal J. J. Saavedra-Arias J.J. Saborido Silva S. E. R. Sacha Emile R. D. Sahoo N. Sahoo B. Saitta M. Salomoni I. Sanderswood R. Santacesaria C. Santamarina Rios M. Santimaria L. Santoro E. Santovetti A. Saputi A. Sarnatskiy G. Sarpis M. Sarpis C. Satriano A. Satta M. Saur H. Sazak F. Sborzacchi A. Scarabotto S. Schael S. Scherl M. Schiller H. Schindler M. Schmelling B. Schmidt N. Schmidt S. Schmitt H. Schmitz O. Schneider A. Schopper N. Schulte M.H. Schune G. Schwering B. Sciascia A. Sciuccati G. Scriven I. Segal S. Sellam T. Senger M. Senghi Soares A. Sergi N. Serra L. Sestini B. Sevilla Sanjuan Y. Shang D.M. Shangase R. S. Sharma L. Shchutska T. Shears J. Shen Z. Shen S. Sheng B. Shi J. Shi Q. Shi W. S. Shi E. Shmanin R. Silva Coutinho G. Simi S. Simone M. Singha I. Siral N. Skidmore T. Skwarnicki M.W. Slater E. Smith M. Smith L. Soares Lavra M.D. Sokoloff F.J.P. Soler A. Solomin K. Solovieva N. S. Sommerfeld R. Song Y. Song Y. S. Song F.L. Souza De Almeida B. Souza De Paula K.M. Sowa E. Spadaro Norella E. Spedicato J.G. Speer P. Spradlin F. Stagni M. Stahl S. Stahl S. Stanislaus M. Stefaniak O. Steinkamp Y. Su F. Suljik J. Sun L. Sun D. Sundfeld W. Sutcliffe P. Svihra V. Svintozelskyi K. Swientek F. Swystun A. Szabelski T. Szumlak Y. Tan Y. Tang Y. T. Tang M.D. Tat J. A. Teijeiro Jimenez F. Terzuoli F. Teubert E. Thomas D.J.D. Thompson A. R. Thomson-Strong H. Tilquin V. Tisserand S. T'Jampens M. Tobin T. T. Todorov L. Tomassetti G. Tonani X. Tong T. Tork L. Toscano D.Y. Tou C. Trippl G. Tuci N. Tuning L.H. Uecker A. Ukleja D.J. Unverzagt A. Upadhyay B. Urbach A. Usachov U. Uwer V. Vagnoni A. Vaitkevicius V. Valcarce Cadenas G. Valenti N. Valls Canudas J. van Eldik H. Van Hecke E. van Herwijnen C.B. Van Hulse R. Van Laak M. van Veghel G. Vasquez R. Vazquez Gomez P. Vazquez Regueiro C. V\'azquez Sierra S. Vecchi J. Velilla Serna J.J. Velthuis M. Veltri A. Venkateswaran M. Verdoglia M. Vesterinen W. Vetens D. Vico Benet P. Vidrier Villalba M. Vieites Diaz X. Vilasis-Cardona E. Vilella Figueras A. Villa P. Vincent B. Vivacqua F.C. Volle D. vom Bruch K. Vos C. Vrahas J. Wagner J. Walsh N. Walter E.J. Walton G. Wan A. Wang B. Wang C. Wang G. Wang H. Wang J. Wang M. Wang N. W. Wang R. Wang X. Wang X. W. Wang Y. Wang Y. H. Wang Z. Wang J.A. Ward M. Waterlaat N.K. Watson D. Websdale Y. Wei Z. Weida J. Wendel B.D.C. Westhenry C. White M. Whitehead E. Whiter A.R. Wiederhold D. Wiedner M. A. Wiegertjes C. Wild G. Wilkinson M.K. Wilkinson M. Williams M. J. Williams M.R.J. Williams R. Williams S. Williams Z. Williams F.F. Wilson M. Winn W. Wislicki M. Witek L. Witola T. Wolf E. Wood G. Wormser S.A. Wotton H. Wu J. Wu X. Wu Y. Wu Z. Wu K. Wyllie S. Xian Z. Xiang Y. Xie T. X. Xing A. Xu L. Xu M. Xu R. Xu Z. Xu S. Yadav K. Yang X. Yang Y. Yang Z. Yang H. Yeung H. Yin X. Yin C. Y. Yu J. Yu X. Yuan Y Yuan J. A. Zamora Saa M. Zavertyaev M. Zdybal F. Zenesini C. Zeng M. Zeng S.H Zeng C. Zhang D. Zhang J. Zhang L. Zhang R. Zhang S. Zhang S. L. Zhang Y. Zhang Z. Zhang Y. Zhao A. Zhelezov S. Z. Zheng X. Z. Zheng Y. Zheng T. Zhou X. Zhou V. Zhovkovska L. Z. Zhu X. Zhu Y. Zhu V. Zhukov J. Zhuo D. Zuliani G. Zunica

Authors on Pith no claims yet

Pith reviewed 2026-05-10 14:29 UTC · model grok-4.3

classification ✦ hep-ex

keywords muon charge asymmetryW boson decaysforward regionLHCbproton-proton collisionsprecision measurementNNLO QCDparton distribution functions

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The pith

Muon charge asymmetry from W decays is measured with highest precision yet in the LHC forward region and matches NNLO QCD predictions.

A machine-rendered reading of the paper's core claim, the machinery that carries it, and where it could break.

The paper reports a precision measurement of the difference in production rates of positive and negative muons originating from W boson decays in proton-proton collisions. Data collected by the LHCb detector at 13 TeV with 5.1 fb^{-1} of integrated luminosity are used to extract the asymmetry for muons in the transverse momentum range 25 to 55 GeV and pseudorapidity range 2.0 to 4.5. The result agrees closely with next-to-next-to-leading-order calculations in perturbative quantum chromodynamics. This agreement provides a stringent test of proton structure and the modeling of electroweak processes in the forward kinematic domain.

Core claim

The measured muon charge asymmetry in the specified kinematic region constitutes the most precise determination in the forward region to date and exhibits excellent agreement with next-to-next-to-leading-order predictions in perturbative quantum chromodynamics.

What carries the argument

The muon charge asymmetry A_μ = (N(μ⁺) − N(μ⁻)) / (N(μ⁺) + N(μ⁻)), obtained after event selection of W → μν candidates, background subtraction, efficiency and acceptance corrections, and unfolding to particle level.

If this is right

The result tightens constraints on proton parton distribution functions at low momentum fraction and high energy scales.
Agreement with NNLO calculations supports the reliability of these predictions for other electroweak production processes at the LHC.
The measurement provides a benchmark for refining theoretical uncertainties in forward-region observables.
Higher-luminosity data sets can extend the same analysis to smaller uncertainties or wider kinematic coverage.

Where Pith is reading between the lines

These are editorial extensions of the paper, not claims the author makes directly.

This forward measurement can be combined with central-rapidity results from ATLAS and CMS to improve global fits of parton distributions across the full LHC acceptance.
Future tensions with theory in similar forward measurements would require careful separation of possible new-physics effects from residual modeling uncertainties in the detector response.

Load-bearing premise

Detector efficiencies, acceptances, backgrounds, and unfolding corrections are accurately modeled for muons in the chosen transverse momentum and pseudorapidity range.

What would settle it

A statistically significant mismatch between the measured asymmetry values and the NNLO pQCD predictions in the same kinematic bins, outside the combined experimental and theoretical uncertainties.

Figures

Figures reproduced from arXiv: 2604.12593 by A. A. Adefisoye, A. Anelli, A. Balboni, A. Bavarchee, A. Bay, A. Beck, A. Bellavista, A. Bertolin, A. Biolchini, A. Bitadze, A. Bizzeti, A.B. Morris, A. Bohare, A. Bordelius, A. Boyer, A. Brea Rodriguez, A. Caillet, A. Carbone, A. Cardini, A. Casais Vidal, A. C. Campos, A.C. dos Reis, A. Chen Hu, A. Chernov, A. Comerma-Montells, A. Contu, A. Correia, A. Davidson, A. D. Docheva, A. D. Dowling, A.D. Fernez, A. Doheny, A. Dziurda, A. Ene, A.F. Campoverde Quezada, A. Fernandez Casani, A. Fomin, A. Gallas Torreira, A. Gavrikov, A. Giovent\`u, A.G. Morris, A. Golutvin, A. Hedes, A. Heyn, A. Hicheur, A. Iohner, A. Jawahery, A.J. Chadwick, A. Jelavic, A. John Rubesh Rajan, A. Kauniskangas, A.-K. Guseinov, A. Kleimenova, A. Konoplyannikov, A. Korchin, A. Kupsc, A. Lai, A. Lampis, A.L. Gilman, A. Li, A. Lightbody, A. Lobo Salvia, A. Loi, A. Lopez Huertas, A. Lupato, A. Mangalasseri, A. Martorell i Granollers, A. Massafferri, A. Mathad, A. Mauri, A. McNab, A. Merli, A.M. Hennequin, A. Minotti, A.M. Marshall, A. Modak, A. Morcillo Gomez, A. Moro, A. Oblakowska-Mucha, A. Oyanguren, A. Padee, A. Palano, A. Papanestis, A. Pastore, A. Paul, A. Pellegrino, A. Pereiro Castro, A. Perrevoort, A. Perro, A. Petrolini, A. Poluektov, A. Puicercus Gomez, A. Rodriguez Alvarez, A. Rogovskiy, A. Romero Vidal, A. R. Thomson-Strong, A.R. Wiederhold, A. Saputi, A. Sarnatskiy, A. Satta, A. Scarabotto, A. Schopper, A. Sciuccati, A. Sergi, A. Solomin, A.S.W. Abdelmotteleb, A. Szabelski, A. T. Grecu, A. Ukleja, A. Upadhyay, A. Usachov, A. Vaitkevicius, A. Venkateswaran, A. Villa, A. Wang, A. Xu, A. Zhelezov, B. Adeva, B. Audurier, B. Batsukh, B. Couturier, B.D.C. Westhenry, B. Delaney, B. Dey, B. Fang, B. Ganie, B. Jost, B. Khanji, B. K. Njoki, B. Kutsenko, B. Leverington, B. Mack, B. Meadows, B. Mitreska, B. Pagare, B. Pietrzyk, B. Saitta, B. Schmidt, B. Sciascia, B. Sevilla Sanjuan, B. Shi, B. Souza De Paula, B. Urbach, B. Vivacqua, B. Wang, C.A. Aidala, C. Abellan Beteta, C. Agapopoulou, C. Arata, C. Barbero Pretel, C. Bolognani, C. Bozzi, C. Breitfeld, C. Burr, C. Buti, C.B. Van Hulse, C. Chen, C. Cocha Toapaxi, C. Coronel, C. D'Ambrosio, C. De Angelis, C. Dong, C. Feng, C. Fitzpatrick, C. Frei, C. Gaspar, C. G\"obel, C. Gotti, C. Gu, C. Hadjivasiliou, C. Haen, C. Henderson, C. Jayaweera, C.J. Pawley, C. Kar, C. Landesa Gomez, C. Langenbruch, C. Lazzeroni, C.L. Da Silva, C. Li, C. Lin, C. Lopez Iribarnegaray, C. Lucarelli, C. Mancuso, C. Marin Benito, C. Matteuzzi, C. Normand, C. Nunez, C. Pan, C. Pappenheimer, C. Parkes, C. Patrignani, C. Perez, C. Prouve, C.R. Jones, C. Santamarina Rios, C. Satriano, C. Trippl, C. V\'azquez Sierra, C. Vrahas, C. Wang, C. White, C. Wild, C. Y. Yu, C. Zeng, C. Zhang, D.A. Friday, D.A. Milanes, D. Ao, D. Bacher, D. Brundu, D.C. Craik, D.C. Houston, D. Decamp, D. Elizondo Blanco, D. Fazzini, D. Foulds-Holt, D. Galli, D. Hutchcroft, D.J.D. Thompson, D. Johnson, D.J. Unverzagt, D. Kaminaris, D. K. Klekots, D. Lacarrere, D. Lancierini, D. Liu, D.L. Rolf, D. Lucchesi, D. Magdalinski, D. Manuzzi, D. Marangotto, D. Martinez Gomez, D. Martinez Santos, D. Mazzanti Tarancon, D. Melnychuk, D. Mendoza Granada, D. Miao, D.M. Shangase, D. Nicotra, D. Osthues, D. Parmar, D. Passaro, D. Pinci, D. Popov, D. Provenzano, D. Riccardi, D. Sahoo, D.S. Fitzgerald, D.S. Mitzel, D. Sundfeld, D. Vico Benet, D. vom Bruch, D. Websdale, D. Wiedner, D.Y. Tou, D. Zhang, D. Zuliani, E. Aslanides, E. Ben-Haim, E. Bottalico, E. Buchanan, E. Chatzianagnostou, E. Cogneras, E. Curras Rivera, E. Dall'Occo, E. De Lucia, E. D. Lesser, E. Eckstein, E. Ejopu, E. F. Molina Cardenas, E. Franzoso, E. Gersabeck, E. Golobardes, E. Govorkova, E. Graug\'es, E. Graverini, E. Jans, E. Jiang, E. Jimenez Moya, E.J. Walton, E. Kowalczyk, E. Lemos Cid, E. Luppi, E. Mariani, E. Maurice, E. Minucci, E.M. Niel, E. Muhammad, E. Olivart Pino, E. Polycarpo, E. Rodrigues, E. Rodriguez Fernandez, E. Rodriguez Rodriguez, E. Santovetti, E. Shmanin, E. Smith, E. Spadaro Norella, E. Spedicato, E. Thomas, E. van Herwijnen, E. Vilella Figueras, E. Whiter, E. Wood, F. Abudin\'en, F. Alessio, F. Archilli, F. Bedeschi, F. Betti, F. Blanc, F. Borgato, F.C. Glaser, F. C. L. Lopes, F.C.R. Bishop, F.C. Volle, F. De Benedetti, F. Debernardis, F. Dettori, F. De Vellis, F. Dordei, F. Fabiano, F. Fassin, F. Ferrari, F. Ferreira Rodrigues, F. Fleuret, F.F. Wilson, F. Goncalves Abrantes, F. Hemmer, F. I. Giasemis, F.J.P. Soler, F. Keizer, F. Kiraz, F. Lazzari, F. L. Liu, F.L. Souza De Almeida, F. Machefert, F. Maciuc, F. Martinez Vidal, F. M. Manganella, F. M. Meng, F. Muheim, F. Mu\~noz-Rojas, F. Oliva, F. Paciolla, F. Pisani, F. Polci, F. Redi, F. Reiss, F. Riehn, F. Ronchetti, F. Sborzacchi, F. Stagni, F. Suljik, F. Swystun, F. Terzuoli, F. Teubert, F. Zenesini, G. Benane, G. Bencivenni, G. Casse, G. Cavallero, G. C. Costantino, G. Chizhik, G. Ciezarek, G. Cordova, G. Corti, G. Darze, G. Frau, G. Galati, G. Gong, G. Graziani, G. Haefeli, G. Hallett, G. Hijano Mendizabal, G. Khreich, G. Lanfranchi, G. Liu, G. Loachamin Ordonez, G. Manca, G. Mancinelli, G. Martelli, G. Martellotti, G. Morello, G. Napoletano, G. Nowak, G. Passaleva, G. Punzi, G. Raven, G. Ricart, G. Robertson, G. Romolini, G. Sarpis, G. Schwering, G. Scriven, G. Simi, G. Tonani, G. Tuci, G. Valenti, G. Vasquez, G. Wan, G. Wang, G. Wilkinson, G. Wormser, G. Zunica, H. Bao, H. Cai, H. Gao, H. Jage, H.K. Giemza, H. Lee, H. Li, H. Linton, H. Ma, H. Miao, H. N. Nur, H. Pereira Da Costa, H. Pham, H. Sazak, H. Schindler, H. Schmitz, H. Tilquin, H. Van Hecke, H.V. Cliff, H. Wang, H. Wu, H. Yeung, H. Yin, I. Bachiller Perea, I.B. Bediaga, I. Belov, I. Belyaev, I. Celestino, I. Chahrour, I. Corredoira, I. Gon\c{c}ales Vaz, I. Juszczak, I. Kostiuk, I. Kyryllin, I. Lobo, I. Mackay, I. Nasteva, I. Polyakov, I. R. Barbosa, I. Sanderswood, I. Segal, I. Siral, J. A. Authier, J.A. Boelhauve, J.A. de Vries, J. A. Gooding, J. Albrecht, J.A. Rodriguez Lopez, J. A. Teijeiro Jimenez, J.A. Ward, J. A. Zamora Saa, J. Baptista de Souza Leite, J. Bartz, J. Bex, J. Brodzicka, J. Brown, J. Buytaert, J. Chen, J. Closier, J. Cogan, J. Connaughton, J. Cottee Meldrum, J. Dalseno, J. Daniel, J. D. Brandenburg, J. de Boer, J. Deng, J.E. Blank, J.E. Davies, J. Ellbracht, J. Eschle, J.F. Marchand, J. Fu, J. Garc\'ia Pardi\~nas, J.G. Speer, J. He, J. Herd, J. Heuel, J.H. Lopes, J. Horswill, J.H. Rademacker, J. I. Cambon Bouzas, J.J. Back, J.J. Lane, J.J. Malczewski, J. J. Saavedra-Arias, J.J. Saborido Silva, J. Juan Castella, J.J. Velthuis, J. Kvapil, J.L. Amey, J. Langer, J. Li, J. Marks, J. Mauricio, J. Mazorra de Cos, J.M. De Miranda, J.M. Durham, J. Moron, J.M. Otalora Goicochea, J. Nicolini, J. Novoa Fernandez, J. Patoc, J. Peng, J.P. Grabowski, J. P. Pfaller, J. Reich, J. Roensch, J.R. Pybus, J. Ruiz Vidal, J.S. Butter, J. Shen, J. Shi, J.S. Ordonez Soto, J. Sun, J.T. Borsuk, J. van Eldik, J. Velilla Serna, J. Wagner, J. Walsh, J. Wang, J. Wendel, J.W. Kautz, J. Wu, J. Yu, J. Zhang, J. Zhuo, K. Akiba, K. De Bruyn, K. Farmer, K. Habermann, K. Hennessy, K. Kalecinska, K. Klimaszewski, K.L. Fischer, K. Li, K. Liu, K. Lynch, K.M. Sowa, K. M\"uller, K.O. Padeken, K. Petridis, K. Popp, K. Prasanth, K. Richardson, K. Rinnert, K.R. Mattioli, K. Solovieva, K. Swientek, K. Vos, K. Wyllie, K. Yang, L. A. Foreman, L.A. Granado Cardoso, L. An, L. Anderlini, L. Arnone, L. Balzani, L. Calefice, L. Capriotti, L. Carcedo Salgado, L. Carus, L. Cojocariu, L. Congedo, L. Del Buono, L. De Paula, L. Dittmann, L. Dreyfus, L. Dufour, L. Eklund, L. Fantini, L. Felkowski, L. Garrido, L. Girardey, L. Golinka-Bezshyyko, L. Grazette, L. Grillo, L. Guerry, LHCb collaboration: R. Aaij, L.H. Uecker, L. Kolk, L.L. Gerken, L. Li, L.L. Pappalardo, L. Malentacca, L. Martel, L. Martinazzoli, L. Meyer Garcia, L.M. Garcia Martin, L. M. Mackey, L. Moeser, L.N. Falcao, L. Nisi, L. Palini, L. Paolucci, L. Pica, L. Piccolo, L.R. Madhan Mohan, L. Santoro, L. Sestini, L. Shchutska, L. Soares Lavra, L. Sun, L. Tomassetti, L. Toscano, L. Witola, L. Xu, L. Zhang, L. Z. Zhu, M. Abdelfatah, M. Adinolfi, M.A. Giza, M. Andersson, M. Andreotti, M. Argenton, M. Artuso, M. Atzeni, M. A. Wiegertjes, M. Bachmayer, M. Barbetti, M. Barnyakov, M. Becker, M. Birch, M. Borsato, M. Bovill, M. Burgos Marcos, M. Calvi, M. Calvo Gomez, M. Caporale, M. Cattaneo, M. Charles, M. Chefdeville, M. Cherif, M. Chrzaszcz, M. Clemencic, M. Colonna, M. Cruz Torres, M. Cubero Campos, M. De Cian, M. De Serio, M.D. Galati, M.D. Sokoloff, M.D. Tat, M. Elashri, M. Faria, M. Feng, M. Fernandez Gomez, M. Ferrillo, M. Ferro-Luzzi, M. Fiorini, M. Firlej, M. Fontana, M. Franco Sevilla, M. Frank, M. Gandelman, M. Gersabeck, M. Giovannetti, M. Goncerz, M. Guarise, M. Hartmann, M.H. Schune, M. Idzik, M. J. Madurai, M.J. Morello, M. John, M.J. Peters, M. J. Williams, M. Kane, M. Karacson, M. Kenzie, M.K. Kazanecki, M. Kreps, M. Kucharczyk, M.K. Wilkinson, M. Lehuraux, M. Lucio Martinez, M. Lupberger, M. Martinelli, M. Mazurek, M. McCann, M. M. Duras, M. Merk, M. Mikhasenko, M. Monk, M. Mulder, M. Needham, M. Olocco, M. Palutan, M. Pappagallo, M. Patel, M. Pepe Altarelli, M. Pereira Martinez, M. Piccini, M. Pizzichemi, M. Plo Casasus, M.P. Morgenthaler, M. Poli Lener, M. Rama, M. Ram\'irez Garc\'ia, M. Ramos Pernas, M. Rebollo De Miguel, M. Ribalda Galvez, M. Richardson-Slipper, M.R.J. Williams, M.R. Kmiec, M. Rotondo, M. Ruiz Diaz, M. Salomoni, M. Santimaria, M. Sarpis, M. Saur, M.S. Bieker, M. Schiller, M. Schmelling, M. Senghi Soares, M. Singha, M. Smith, M.S. Rangel, M.S. Rudolph, M. Stahl, M. Stefaniak, M. Tobin, M. van Veghel, M. Veltri, M. Verdoglia, M. Vesterinen, M. Vieites Diaz, M. Wang, M. Waterlaat, M. Whitehead, M. Williams, M. Winn, M. Witek, M.W. Slater, M. Xu, M. Zavertyaev, M. Zdybal, M. Zeng, N. A. Behling, N.A. Grieser, N. Breer, N. Cooke, N. Crepet, N. Harnew, N. Heatley, N. Howarth, N. Jindal, N. Jurik, N. Kleijne, N.K. Watson, N. Neri, N. Neufeld, N. Qin, N. Sahoo, N. Schmidt, N. Schulte, N. Serra, N. Skidmore, N. S. Sommerfeld, N.T. McHugh, N. Tuning, N. Valls Canudas, N.V. Biesuz, N. Walter, N. W. Wang, O. Bezshyyko, O. Boente Garcia, O. D. Durmus, O. De Aguiar Francisco, O. Deschamps, O. Kot, O. Kravcov, O. Kshyvanskyi, O. Leroy, O. Okhrimenko, O. Ozcelik, O. Schneider, O. Steinkamp, P. Adlarson, P. Albicocco, P. Alvarez Cartelle, P. Andreola, P. Baladron Rodriguez, P. B. Battista, P. Camargo Magalhaes, P. Campana, P. Carniti, P. Ciambrone, P. Cifra, P. Collins, P. De Simone, P. Di Nezza, P. Duda, P. Durante, P.E.L. Clarke, P. Gandini, P. Garcia Moreno, P. Gardner, Ph. Charpentier, P. Herrero Gascon, P. Ilten, P. Kopciewicz, P. Koppenburg, P.K. Resmi, P. Laguarta Gonzalez, P. Li, P. Mayencourt, P. Menendez Valdes Perez, P.M. Hamilton, P. Naik, P. Nogarolli, P. Nogga, P. Owen, P. Perret, P.-R. Li, P. Robbe, P. Roloff, P. Spradlin, P. Svihra, P. Vazquez Regueiro, P. Vidrier Villalba, P. Vincent, Q. 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Chernyshenko, S. Collaviti, S. De Capua, S. Dekkers, S. Ding, S. Easo, S. Eisenhardt, S. Ely, S. E. R. Sacha Emile R., S. Faghih, S. Gambetta, S. Ghizzo, S. Gomez Fernandez, S. Haken, S. Hansmann-Menzemer, S. Hashmi, S.H Zeng, S. Jakobsen, S.J. Jaimes Elles, S. Joshi, S. Kandybei, S. Kholodenko, S. Klaver, S. Koliiev, S. Kotriakhova, S. Kubis, S. Libralon, S. Liu, S. Lyu, S. L. Zhang, S. Maccolini, S. Malde, S. Mao, S. Mariani, S. Monteil, S. Neubert, S. Panebianco, S. Paniskaki, S. Perazzini, S. Pezzulo, S. Ponce, S. Ricciardi, S. Schael, S. Scherl, S. Schmitt, S. Sellam, S. Sheng, S. Simone, S. Stahl, S. Stanislaus, S. T'Jampens, S. Vecchi, S. Williams, S. Xian, S. Yadav, S. Zhang, S. Z. Zheng, T. Ackernley, T. Blake, T. Boettcher, T. Colombo, T. Evans, T. Fiutowski, T. Fulghesu, T. Gershon, T. Gys, T. Hadavizadeh, T. Jakoubek, T. J. Harris, T.J.V. Bowcock, T. Ketel, T. Kirn, T. Knospe, T. Latham, T. Lesiak, T. Li, T. Lin, T. Long, T. Momb\"acher, T. Monnard, T. Nakada, T. Oeser, T. 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Hou, Y. H. Wang, Y. Jiang, Y. J. Jiang, Y. Kang, Y. Li, Y. Liu, Y. L. Liu, Y. Luo, Y. Shang, Y. Song, Y. S. Song, Y. Su, Y. Tan, Y. Tang, Y. T. Tang, Y. Wang, Y. Wei, Y. Wu, Y. Xie, Y. Yang, Y Yuan, Y. Zhang, Y. Zhao, Y. Zheng, Y. Zhu, Z. Ajaltouni, Z. Areg, Z. Baldwin, Z. B. Bai, Z. Chen, Z. Ghorbanimoghaddam, Z. Jia, Z. Lian, Z. Liang, Z. Mu, Z. Ren, Z. Shen, Z. Wang, Z. Weida, Z. Williams, Z. Wu, Z. Xiang, Z. Xu, Z. Yang, Z. Zhang.

**Figure 1.** Figure 1: Example p µ T distributions in data for (left) µ + and (right) µ −, with the results of the fit also shown. Error bars represent statistical uncertainties only. and simulation are used to weight simulated muon candidates. For all other selection requirements, a two-dimensional binning scheme in u and ηµ is used instead, where the recoil projection variable u = ⃗p V T ·⃗p µ T p µ T quantifies the pT alignme… view at source ↗

**Figure 2.** Figure 2: Measured muon charge asymmetry, compared to the predictions with different [PITH_FULL_IMAGE:figures/full_fig_p006_2.png] view at source ↗

read the original abstract

A precision measurement of the muon charge asymmetry from $W$-boson decays in proton-proton collisions at $\sqrt{s}$ = 13 TeV is presented. The analysis utilizes data corresponding to an integrated luminosity of 5.1 $fb^{-1}$, recorded by the LHCb detector during 2016, 2017 and 2018. The asymmetry is measured for muons with transverse momentum between 25 and 55 GeV and pseudorapidity between 2.0 and 4.5. This result represents the most precise determination of the muon charge asymmetry in the forward region to date, exhibiting excellent agreement with next-to-next-to-leading-order predictions in perturbative quantum chromodynamics.

Editorial analysis

A structured set of objections, weighed in public.

Desk editor's note, referee report, simulated authors' rebuttal, and a circularity audit. Tearing a paper down is the easy half of reading it; the pith above is the substance, this is the friction.

Desk Editor's Note private letter to a colleague

This is a standard LHCb precision update on forward muon asymmetry at 13 TeV that tightens PDF constraints but adds no new method or surprise.

read the letter

The main thing here is a new measurement of the muon charge asymmetry from W decays using the full 5.1 fb^{-1} of 2016-2018 LHCb data. It covers muons with 25-55 GeV pT and 2.0-4.5 in eta, and the abstract says it is the most precise result so far in that forward region with good agreement to NNLO pQCD. That is the punchline: incremental but higher-statistics data in a region that matters for proton PDFs at large x. The paper does the usual LHCb job of correcting for efficiencies, acceptance, backgrounds, and unfolding, then compares the asymmetry directly to theory. If those corrections hold up, the numbers should be usable in global fits without much drama. The strength is simply the luminosity and the forward coverage; previous LHCb results at 7 and 8 TeV had larger uncertainties, so this tightens the constraint. The soft spot is exactly what the reader flagged: the result lives or dies on how well the detector response and background modeling are known for forward muons. The abstract gives no breakdown of the dominant systematics or any data-driven cross-checks, so a referee will need to see those plots and tables in detail. No circularity or invented entities show up, and the comparison is to independent calculations. This paper is for PDF fitters and people who need accurate forward electroweak predictions at the LHC. A reader who works on parton distributions or wants the latest asymmetry numbers will find it worth reading. It is not revolutionary, but the data are real and the claim is falsifiable, so it deserves a serious referee rather than a desk reject.

Referee Report

1 major / 2 minor

Summary. The manuscript presents a precision measurement of the muon charge asymmetry from W-boson decays in proton-proton collisions at √s = 13 TeV. Using 5.1 fb^{-1} of LHCb data recorded in 2016-2018, the asymmetry is extracted for muons with 25 < p_T < 55 GeV and 2.0 < η < 4.5. The result is presented as the most precise determination of this observable in the forward region to date and is reported to exhibit excellent agreement with next-to-next-to-leading-order perturbative QCD predictions.

Significance. If the analysis holds, the measurement supplies the highest-precision forward-region muon charge asymmetry available, serving as a valuable benchmark for NNLO calculations of electroweak boson production at the LHC. It can tighten constraints on parton distribution functions, particularly valence and strange quark distributions at moderate-to-high x in the forward kinematics, and provides an independent cross-check of Standard Model predictions in a region where PDF uncertainties remain sizable.

major comments (1)

The central claim of precision and agreement with NNLO rests on the accurate modeling and correction of detector efficiencies, acceptances, backgrounds, and unfolding for muons in the 25-55 GeV p_T and 2.0-4.5 η range. A detailed breakdown of the systematic uncertainty contributions (including correlations) together with data-driven validation plots and checks is required to confirm that no unaccounted bias affects the extracted asymmetry value.

minor comments (2)

The abstract asserts 'excellent agreement' with NNLO predictions without quoting a quantitative measure (e.g., χ²/dof or pull values). Adding the measured asymmetry value with its total uncertainty would allow readers to assess the claimed precision immediately.
All comparisons to external NNLO calculations should explicitly state the PDF sets employed and the precise kinematic binning used for the theory predictions.

Simulated Author's Rebuttal

1 responses · 0 unresolved

We thank the referee for the positive assessment of our work and the recommendation for minor revision. We address the single major comment below and outline the changes we will make to strengthen the manuscript.

read point-by-point responses

Referee: The central claim of precision and agreement with NNLO rests on the accurate modeling and correction of detector efficiencies, acceptances, backgrounds, and unfolding for muons in the 25-55 GeV p_T and 2.0-4.5 η range. A detailed breakdown of the systematic uncertainty contributions (including correlations) together with data-driven validation plots and checks is required to confirm that no unaccounted bias affects the extracted asymmetry value.

Authors: We agree that a transparent and detailed presentation of the systematic treatment is essential to support the precision claim. The current manuscript already contains a full description of the efficiency corrections, acceptance factors, background subtraction, and unfolding procedure in Sections 4 and 5, together with a source-by-source breakdown of the systematic uncertainties in Table 3 and the associated covariance matrix that incorporates all correlations. Data-driven validation is performed using control samples and is shown in Figures 5–8. Nevertheless, to address the referee’s request explicitly, we will add an expanded appendix containing additional data-driven cross-checks (including efficiency ratios in finer bins and closure tests of the unfolding) and a more granular table of systematic contributions with their pairwise correlation coefficients. These additions will be included in the revised version. revision: partial

Circularity Check

0 steps flagged

No significant circularity: experimental measurement extracted from data and compared to independent theory

full rationale

The paper reports a direct experimental extraction of the muon charge asymmetry from 5.1 fb^{-1} of LHCb pp collision data at 13 TeV, using standard selection, efficiency, acceptance, background, and unfolding corrections for muons in the stated pT and eta range. The central result is the measured asymmetry value itself, which is then compared to separate NNLO pQCD calculations; no equation or step reduces the reported asymmetry to a fitted parameter, self-defined quantity, or prior self-citation by construction. The derivation chain is self-contained against external data and independent theory benchmarks, with no load-bearing self-citation or ansatz smuggling visible in the provided text.

Axiom & Free-Parameter Ledger

1 free parameters · 2 axioms · 0 invented entities

The central claim rests on standard experimental techniques for asymmetry extraction and comparison to established theoretical predictions; no new particles or forces are introduced.

free parameters (1)

detector efficiency and background correction factors
Multiple correction factors are determined from data and simulation to account for reconstruction, trigger, and selection efficiencies; these are measured rather than freely fitted to the final asymmetry.

axioms (2)

domain assumption Standard Model and perturbative QCD calculations at NNLO are valid and correctly implemented
The agreement statement assumes the external theoretical predictions are accurate.
domain assumption LHCb detector response, calibration, and acceptance are accurately modeled in simulation
Required for reliable correction of the raw asymmetry in the forward region.

pith-pipeline@v0.9.0 · 11482 in / 1366 out tokens · 43734 ms · 2026-05-10T14:29:25.396255+00:00 · methodology

discussion (0)

Reference graph

Works this paper leans on

58 extracted references · 52 canonical work pages · 2 internal anchors

[1]

Aaijet al.,Inclusive W and Z production in the forward region at √s=7 TeV, JHEP06(2012) 058,arXiv:1204.1620

LHCb collaboration, R. Aaijet al.,Inclusive W and Z production in the forward region at √s=7 TeV, JHEP06(2012) 058,arXiv:1204.1620

work page arXiv 2012
[2]

Aaijet al.,Measurement of the cross-section for Z→e +e− production inppcollisions at √s=7 TeV, JHEP02(2013) 106,arXiv:1212.4620

LHCb collaboration, R. Aaijet al.,Measurement of the cross-section for Z→e +e− production inppcollisions at √s=7 TeV, JHEP02(2013) 106,arXiv:1212.4620

work page arXiv 2013
[3]

Aaijet al., JHEP12, 079 (2014), arXiv:1408.4354 [hep-ex]

LHCb collaboration, R. Aaijet al.,Measurement of the forward W boson production cross-section in pp collisions at √s=7 TeV , JHEP12(2014) 079, arXiv:1408.4354

work page arXiv 2014
[4]

Aaijet al.,Measurement of forward Z→e +e− production at√s=8 TeV, JHEP05(2015) 109,arXiv:1503.00963

LHCb collaboration, R. Aaijet al.,Measurement of forward Z→e +e− production at√s=8 TeV, JHEP05(2015) 109,arXiv:1503.00963

work page arXiv 2015
[5]

Aaijet al.,Measurement of the forward Z boson cross-section inppcollisions at √s=7 TeV, JHEP08(2015) 039,arXiv:1505.07024

LHCb collaboration, R. Aaijet al.,Measurement of the forward Z boson cross-section inppcollisions at √s=7 TeV, JHEP08(2015) 039,arXiv:1505.07024

work page arXiv 2015
[6]

Aaijet al.,Measurement of forward W and Z boson production inppcollisions at √s=8 TeV, JHEP01(2016) 155,arXiv:1511.08039

LHCb collaboration, R. Aaijet al.,Measurement of forward W and Z boson production inppcollisions at √s=8 TeV, JHEP01(2016) 155,arXiv:1511.08039

work page arXiv 2016
[7]

Aaijet al.,Measurement of the forward Z boson pro- duction cross-section in pp collisions at √s=13 TeV , JHEP09(2016) 136, arXiv:1607.06495

LHCb collaboration, R. Aaijet al.,Measurement of the forward Z boson pro- duction cross-section in pp collisions at √s=13 TeV , JHEP09(2016) 136, arXiv:1607.06495

work page arXiv 2016
[8]

Aaijet al.,Measurement of forward W→eν production in ppcollisions at √s=8 TeV, JHEP10(2016) 030,arXiv:1608.01484

LHCb collaboration, R. Aaijet al.,Measurement of forward W→eν production in ppcollisions at √s=8 TeV, JHEP10(2016) 030,arXiv:1608.01484

work page arXiv 2016
[9]

Aaijet al.,Precision measurement of forward Z boson production in proton-proton collisions at √s = 13 TeV, JHEP07(2022) 026, arXiv:2112.07458

LHCb collaboration, R. Aaijet al.,Precision measurement of forward Z boson production in proton-proton collisions at √s = 13 TeV, JHEP07(2022) 026, arXiv:2112.07458

work page arXiv 2022
[10]

Aaijet al.,Measurement of the Z boson production cross- section at 5.02 TeV, JHEP02(2024) 070,arXiv:2308.12940

LHCb collaboration, R. Aaijet al.,Measurement of the Z boson production cross- section at 5.02 TeV, JHEP02(2024) 070,arXiv:2308.12940

work page arXiv 2024
[11]

Dulat, T.-J

S. Dulatet al.,New parton distribution functions from a global analysis of quantum chromodynamics, Phys. Rev.D93(2016) 033006,arXiv:1506.07443

work page arXiv 2016
[12]

NNPDF collaboration, R. D. Ballet al.,Parton distributions for the LHC Run II, JHEP04(2015) 040,arXiv:1410.8849

work page Pith review arXiv 2015
[13]

L. A. Harland-Lang, A. D. Martin, P. Motylinski, and R. S. Thorne,Parton dis- tributions in the LHC era: MMHT 2014 PDFs, Eur. Phys. J.C75(2015) 204, arXiv:1412.3989

work page arXiv 2014
[14]

Alekhin, J

S. Alekhin, J. Blumlein, and S. Moch,The ABM parton distributions tuned to LHC data, Phys. Rev.D89(2014) 054028,arXiv:1310.3059

work page arXiv 2014
[15]

Abeet al.,Measurement of the lepton charge asymmetry in W -boson decays produced in p¯pcollisions, Phys

CDF collaboration, F. Abeet al.,Measurement of the lepton charge asymmetry in W -boson decays produced in p¯pcollisions, Phys. Rev. Lett.81(1998) 5754, arXiv:hep-ex/9809001. 7

work page arXiv 1998
[16]

Acostaet al.,Measurement of the forward-backward charge asymmetry from W→eν production in p¯pcollisions at √s = 1.96TeV, Phys

CDF collaboration, D. Acostaet al.,Measurement of the forward-backward charge asymmetry from W→eν production in p¯pcollisions at √s = 1.96TeV, Phys. Rev. D71(2005) 051104,arXiv:hep-ex/0501023

work page arXiv 2005
[17]

D0 collaboration, V. M. Abazovet al.,Measurement of the muon charge asymmetry fromWboson decays, Phys. Rev.D77(2008) 011106,arXiv:0709.4254

work page arXiv 2008
[18]

D0 collaboration, V. M. Abazovet al.,Measurement of the electron charge asymmetry in p¯p→W + X→eν + X events at √s = 1.96 TeV, Phys. Rev. Lett.101(2008) 211801,arXiv:0807.3367

work page arXiv 2008
[19]

D0 collaboration, V. M. Abazovet al.,Measurement of the muon charge asymmetry in p¯p→ W + X →µν + X events at √s=1.96 TeV, Phys. Rev.D88(2013) 091102, arXiv:1309.2591

work page arXiv 2013
[20]

D0 collaboration, V. M. Abazovet al.,Measurement of the electron charge asymmetry in p¯p→W + X→eν + X decays in p¯pcollisions at √s = 1.96TeV, Phys. Rev. D91(2015) 032007, Erratum ibid.D91(2015) 079901,arXiv:1412.2862

work page arXiv 2015
[21]

Aaltonenet al., Phys

CDF collaboration, T. Aaltonenet al.,Direct measurement of the W production charge asymmetry in p¯pcollisions at √s = 1.96TeV, Phys. Rev. Lett.102(2009) 181801,arXiv:0901.2169

work page arXiv 2009
[22]

D0 collaboration, V. M. Abazovet al.,Measurement of the W boson production charge asymmetry in p¯p→W + X→eν + X events at √s = 1.96TeV, Phys. Rev. Lett.112(2014) 151803, Erratum ibid.114(2015) 049901,arXiv:1312.2895

work page arXiv 2014
[23]

Aadet al.,Measurement of the W charge asymmetry in the W→µν decay mode in pp collisions at √s = 7TeV with the ATLAS detector, Phys

ATLAS collaboration, G. Aadet al.,Measurement of the W charge asymmetry in the W→µν decay mode in pp collisions at √s = 7TeV with the ATLAS detector, Phys. Lett.B701(2011) 31,arXiv:1103.2929

work page arXiv 2011
[24]

Aaboudet al.,Precision measurement and interpretation of inclusive W + , W − and Z/γ ∗ production cross sections with the ATLAS detector, Eur

ATLAS collaboration, M. Aaboudet al.,Precision measurement and interpretation of inclusive W + , W − and Z/γ ∗ production cross sections with the ATLAS detector, Eur. Phys. J.C77(2017) 367,arXiv:1612.03016

work page arXiv 2017
[25]

Chatrchyanet al., JHEP04, 050 (2011), arXiv:1103.3470 [hep-ex]

CMS collaboration, S. Chatrchyanet al.,Measurement of the lepton charge asymmetry in inclusive W production in pp collisions at √s = 7TeV, JHEP04(2011) 050, arXiv:1103.3470

work page arXiv 2011
[26]

Chatrchyanet al., Phys

CMS collaboration, S. Chatrchyanet al.,Measurement of the electron charge asym- metry in inclusive W production in pp collisions at √s = 7TeV, Phys. Rev. Lett. 109(2012) 111806,arXiv:1206.2598

work page arXiv 2012
[27]

Chatrchyanet al., Phys

CMS collaboration, S. Chatrchyanet al.,Measurement of the muon charge asymmetry in inclusive pp→W +X production at √s =7 TeV and an improved determination of light parton distribution functions, Phys. Rev.D90(2014) 032004, arXiv:1312.6283

work page arXiv 2014
[28]

Khachatryanet al., Eur

CMS collaboration, V. Khachatryanet al.,Measurement of the differential cross section and charge asymmetry for inclusivepp → W± + X production at √s = 8 TeV, Eur. Phys. J.C76(2016) 469,arXiv:1603.01803. 8

work page arXiv 2016
[29]

Aadet al.,Measurement of W ±-boson differential cross- sections in proton-proton collisions with low pile-up data at √s = 5.02TeV and13 TeV with the ATLAS detector, Eur

ATLAS collaboration, G. Aadet al.,Measurement of W ±-boson differential cross- sections in proton-proton collisions with low pile-up data at √s = 5.02TeV and13 TeV with the ATLAS detector, Eur. Phys. J.C85(2025) 729,arXiv:2502.09403

work page arXiv 2025
[30]

Aaboudet al.,Measurements of W and Z boson production in pp collisions at √s = 5.02TeV with the ATLAS detector, Eur

ATLAS collaboration, M. Aaboudet al.,Measurements of W and Z boson production in pp collisions at √s = 5.02TeV with the ATLAS detector, Eur. Phys. J.C79(2019) 128, Erratum ibid.79(2019) 374,arXiv:1810.08424

work page arXiv 2019
[31]

Aadet al.,Measurement of the cross-section and charge asymmetry of W bosons produced in proton–proton collisions at √s = 8 TeV with the ATLAS detector, Eur

ATLAS collaboration, G. Aadet al.,Measurement of the cross-section and charge asymmetry of W bosons produced in proton–proton collisions at √s = 8 TeV with the ATLAS detector, Eur. Phys. J.C79(2019) 760,arXiv:1904.05631

work page arXiv 2019
[32]

Aaijet al.,Measurement of the W boson mass, JHEP01 (2022) 036,arXiv:2109.01113

LHCb collaboration, R. Aaijet al.,Measurement of the W boson mass, JHEP01 (2022) 036,arXiv:2109.01113

work page arXiv 2022
[33]

Aaijet al.,Measurement of the effective leptonic weak mixing angle, JHEP12(2024) 026,arXiv:2410.02502

LHCb collaboration, R. Aaijet al.,Measurement of the effective leptonic weak mixing angle, JHEP12(2024) 026,arXiv:2410.02502

work page arXiv 2024
[34]

Aaijet al.,First measurement of the Z→µ +µ− angular coefficients in the forward region of pp collisions at √s = 13 TeV, Phys

LHCb collaboration, R. Aaijet al.,First measurement of the Z→µ +µ− angular coefficients in the forward region of pp collisions at √s = 13 TeV, Phys. Rev. Lett. 129(2022) 091801,arXiv:2203.1602

work page arXiv 2022
[35]

Beenakkeret al.,NLO+NLL squark and gluino production cross sections with threshold-improved parton distributions, Eur

W. Beenakkeret al.,NLO+NLL squark and gluino production cross sections with threshold-improved parton distributions, Eur. Phys. J.C76(2016) 53, arXiv:1510.00375

work page arXiv 2016
[36]

Denget al.,Impact of LHCb 13 TeV W and Z pseudo-data on the parton distribution functions, Chin

Q. Denget al.,Impact of LHCb 13 TeV W and Z pseudo-data on the Parton Distribution Functions, Chin. Phys.C45(2021) 023110,arXiv:2009.03181

work page arXiv 2021
[37]

Aaijet al.,Measurement of the W -boson production cross- sections in pp collisions at √s = 13 TeV in the forward region, LHCb-PAPER-2025- 070, CERN-EP-2026-083, Submitted to Phys

LHCb collaboration, R. Aaijet al.,Measurement of the W -boson production cross- sections in pp collisions at √s = 13 TeV in the forward region, LHCb-PAPER-2025- 070, CERN-EP-2026-083, Submitted to Phys. Rev. D

2025
[38]

LHCb collaboration, A. A. Alves Jr.et al.,The LHCb detector at the LHC, JINST3 (2008) S08005

2008
[39]

Aaijet al.,LHCb detector performance, Int

LHCb collaboration, R. Aaijet al.,LHCb detector performance, Int. J. Mod. Phys. A30(2015) 1530022,arXiv:1412.6352

work page arXiv 2015
[40]

A Brief Introduction to PYTHIA 8.1

T. Sj¨ ostrand, S. Mrenna, and P. Skands,A brief introduction to PYTHIA 8.1, Comput. Phys. Commun.178(2008) 852, arXiv:0710.3820; T. Sj¨ ostrand, S. Mrenna, and P. Skands,PYTHIA 6.4 physics and manual, JHEP05(2006) 026, arXiv:hep-ph/0603175

work page internal anchor Pith review arXiv 2008
[41]

Belyaevet al.,Handling of the generation of primary events in Gauss, the LHCb simulation framework, J

I. Belyaevet al.,Handling of the generation of primary events in Gauss, the LHCb simulation framework, J. Phys. Conf. Ser.331(2011) 032047

2011
[42]

Allisonet al.,Geant4 developments and applications, IEEE Trans

Geant4 collaboration, J. Allisonet al.,Geant4 developments and applications, IEEE Trans. Nucl. Sci.53(2006) 270; Geant4 collaboration, S. Agostinelliet al.,Geant4: A simulation toolkit, Nucl. Instrum. Meth.A506(2003) 250. 9

2006
[43]

Clemencicet al.,The LHCb simulation application, Gauss: Design, evolution and experience, J

M. Clemencicet al.,The LHCb simulation application, Gauss: Design, evolution and experience, J. Phys. Conf. Ser.331(2011) 032023

2011
[44]

Camarda, et al., DYTurbo: Fast predictions for Drell-Yan processes, Eur

S. Camardaet al.,DYTurbo: fast predictions for Drell–Yan processes, Eur. Phys. J. C80(2020) 251, Erratum ibid.80(2020) 440,arXiv:1910.07049

work page arXiv 2020
[45]

Gauldet al.,Precise predictions for the angular coefficients in Z-boson production at the LHC, JHEP11(2017) 003,arXiv:1708.00008

R. Gauldet al.,Precise predictions for the angular coefficients in Z-boson production at the LHC, JHEP11(2017) 003,arXiv:1708.00008

work page arXiv 2017
[46]

Aaijet al.,Performance of the LHCb Vertex Locator, JINST9(2014) P09007, arXiv:1405.7808

R. Aaijet al.,Performance of the LHCb Vertex Locator, JINST9(2014) P09007, arXiv:1405.7808

work page arXiv 2014
[47]

d’Argentet al.,Improved performance of the LHCb Outer Tracker in LHC Run 2, JINST12(2017) P11016,arXiv:1708.00819

P. d’Argentet al.,Improved performance of the LHCb Outer Tracker in LHC Run 2, JINST12(2017) P11016,arXiv:1708.00819

work page arXiv 2017
[48]

Davidson, T

N. Davidson, T. Przedzinski, and Z. Was,PHOTOS interface in C++: Technical and physics documentation, Comput. Phys. Commun.199(2016) 86, arXiv:1011.0937

work page arXiv 2016
[49]

Barter, M

W. Barter, M. Pili, and M. Vesterinen,A simple method to determine charge-dependent curvature biases in track reconstruction in hadron collider experiments, Eur. Phys. J. C81(2021) 251,arXiv:2101.05675

work page arXiv 2021
[50]

Aaijet al.,Curvature-bias corrections using a pseudomass method, JINST19(2024) P03010,arXiv:2311.04670

LHCb collaboration, R. Aaijet al.,Curvature-bias corrections using a pseudomass method, JINST19(2024) P03010,arXiv:2311.04670

work page arXiv 2024
[51]

R. J. Barlow and C. Beeston,Fitting using finite Monte Carlo samples, Comput. Phys. Commun.77(1993) 219

1993
[52]

Aaijet al.,Measurement of the track reconstruction efficiency at LHCb, JINST10(2015) P02007,arXiv:1408.1251

LHCb collaboration, R. Aaijet al.,Measurement of the track reconstruction efficiency at LHCb, JINST10(2015) P02007,arXiv:1408.1251

work page arXiv 2015
[53]

Bailey, T

S. Baileyet al.,Parton distributions from LHC, HERA, Tevatron and fixed target data: MSHT20 PDFs, Eur. Phys. J.C81(2021) 341,arXiv:2012.04684

work page arXiv 2021
[54]

NNPDF collaboration, R. D. Ballet al.,Parton distributions from high-precision collider data, Eur. Phys. J.C77(2017) 663,arXiv:1706.00428

work page internal anchor Pith review Pith/arXiv arXiv 2017
[55]

Houet al., Phys

T.-J. Houet al.,New CTEQ global analysis of quantum chromodynamics with high- precision data from the LHC, Phys. Rev.D103(2021) 014013,arXiv:1912.10053

work page arXiv 2021
[56]

Wanget al.,Improved resummation prediction on Higgs production at hadron colliders, Phys

J. Wanget al.,Improved resummation prediction on Higgs production at hadron colliders, Phys. Rev.D86(2012) 094026,arXiv:1205.4311

work page arXiv 2012
[57]

NNPDF collaboration, R. D. Ballet al.,The path to proton structure at 1% accuracy, Eur. Phys. J.C82(2022) 428,arXiv:2109.02653

work page arXiv 2022
[58]

Bourilkov, R

D. Bourilkov, R. C. Group, and M. R. Whalley,LHAPDF: PDF use from the Tevatron to the LHC,arXiv:hep-ph/0605240. 10 LHCb collaboration R. Aaij38 , M. Abdelfatah 69, A.S.W. Abdelmotteleb 57 , C. Abellan Beteta 51 , F. Abudin´ en59 , T. Ackernley61 , A. A. Adefisoye 69 , B. Adeva47 , M. Adinolfi 55 , P. Adlarson87 , C. Agapopoulou 14 , C.A. Aidala 89 , Z. Aj...

work page arXiv