A novel method for modeling the recoil in W boson events at hadron colliders

V.M. Abazov, B. Abbott, M. Abolins,B.S. Acharya,M. Adams,T. Adams, E. Aguilo, M. Ahsan, G.D. Alexeev, G. Alkhazov,A. Alton,G. Alverson,G.A. Alves, L.S. Ancu, T. Andeen, M.S. Anzelc,M. Aoki,Y. Arnoud,M. Arov,M. Arthaud, A. Askew, B. Åsman, O. Atramentov,C. Avila,J. BackusMayes,F. Badaud,L. Bagby, B. Baldin,D.V. Bandurin,S. Banerjee,E. Barberis,A.-F. Barfuss,P. Bargassa, P. Baringer,J. Barreto,J.F. Bartlett,U. Bassler,D. Bauer, S. Beale,A. Bean,M. Begalli,M. Begel,C. Belanger-Champagne, L. Bellantoni,A. Bellavance,J.A. Benitez,S.B. Beri,G. Bernardi, R. Bernhard,I. Bertram,M. Besançon,R. Beuselinck,V.A. Bezzubov,P.C. Bhat,V. Bhatnagar,G. Blazey,S. Blessing,K. Bloom,A. Boehnlein,D. Boline, T.A. Bolton,E.E. Boos,G. Borissov,T. Bose,A. Brandt,R. Brock,G. Brooijmans,A. Bross,D. Brown,X.B. Bu, D. Buchholz,M. Buehler,V. Buescher,V. Bunichev,S. Burdin,T.H. Burnett,C.P. Buszello, P. Calfayan,B. Calpas, S. Calvet,J. Cammin, M.A. Carrasco-Lizarraga,E. Carrera,W. Carvalho,B.C.K. Casey,H. Castilla-Valdez, S. Chakrabarti,D. Chakraborty,K.M. Chan,A. Chandra,E. Cheu,D.K. Cho,S.W. Cho,S. Choi,B. Choudhary,T. Christoudias, S. Cihangir,D. Claes,J. Clutter,M. Cooke,W.E. Cooper,M. Corcoran, F. Couderc, M.-C. Cousinou, D. Cutts, M. Ćwiok,A. Das,G. Davies,K. De,S.J. de Jong,E. De La Cruz-Burelo,K. DeVaughan,F. Déliot,M. Demarteau,R. Demina,D. Denisov,S.P. Denisov,S. Desai,H.T. Diehl, M. Diesburg,A. Dominguez, T. Dorland,A. Dubey,L.V. Dudko, L. Duflot, D. Duggan,A. Duperrin,S. Dutt,A. Dyshkant, M. Eads, D. Edmunds, J. Ellison,V.D. Elvira, Y. Enari,S. Eno,M. Escalier,H. Evans,A. Evdokimov,V.N. Evdokimov,G. Facini,A.V. Ferapontov, T. Ferbel,F. Fiedler,F. Filthaut,W. Fisher,H.E. Fisk,M. Fortner,H. Fox,S. Fu,S. Fuess, T. Gadfort,C.F. Galea, A. Garcia-Bellido, V. Gavrilov, P. Gay,W. Geist,W. Geng, C.E. Gerber, Y. Gershtein,D. Gillberg,G. Ginther,B. Gómez,A. Goussiou,P.D. Grannis,S. Greder,H. Greenlee, Z.D. Greenwood,E.M. Gregores,G. Grenier,Ph. Gris,J.-F. Grivaz,A. Grohsjean,S. Grünendahl,M.W. Grünewald,F. Guo, J. Guo, G. Gutierrez,P. Gutierrez,A. Haas,P. Haefner,S. Hagopian, J. Haley,I. Hall,R.E. Hall, L. Han, K. Harder, A. Harel, J.M. Hauptman, J. Hays, T. Hebbeker,D. Hedin,J.G. Hegeman,A.P. Heinson,U. Heintz,C. Hensel,I. Heredia-De La Cruz,K. Herner,G. Hesketh,M.D. Hildreth, R. Hirosky,T. Hoang,J.D. Hobbs,B. Hoeneisen, M. Hohlfeld,S. Hossain,P. Houben,Y. Hu, Z. Hubacek,N. Huske, V. Hynek, I. Iashvili,R. Illingworth,A.S. Ito,S. Jabeen,M. Jaffré,S. Jain, K. Jakobs,D. Jamin,R. Jesik, K. Johns,C. Johnson, M. Johnson,D. Johnston,A. Jonckheere,P. Jonsson,A. Juste,E. Kajfasz,D. Karmanov, P.A. Kasper,I. Katsanos, V. Kaushik, R. Kehoe,S. Kermiche,N. Khalatyan, A. Khanov, A. Kharchilava,Y.N. Kharzheev,D. Khatidze,M.H. Kirby,M. Kirsch, B. Klima,J.M. Kohli,J.-P. Konrath,A.V. Kozelov,J. Kraus,T. Kuhl,A. Kumar, A. Kupco,T. Kurča,V.A. Kuzmin, J. Kvita,F. Lacroix,D. Lam, S. Lammers,G. Landsberg, P. Lebrun,H.S. Lee,W.M. Lee, A. Leflat,J. Lellouch,L. Li,Q.Z. Li, S.M. Lietti, J.K. Lim,D. Lincoln,J. Linnemann,V.V. Lipaev, R. Lipton,Y. Liu,Z. Liu,A. Lobodenko,M. Lokajicek,P. Love,H.J. Lubatti,R. Luna-Garcia,A.L. Lyon,A.K.A. Maciel,D. Mackin,P. Mättig,R. Magaña-Villalba, P.K. Mal,S. Malik,V.L. Malyshev, Y. Maravin,B. Martin,R. McCarthy,C.L. McGivern,M.M. Meijer,A. Melnitchouk,L. Mendoza,D. Menezes,P.G. Mercadante,M. Merkin,K.W. Merritt,A. Meyer,J. Meyer,N.K. Mondal,H.E. Montgomery,R.W. Moore, T. Moulik, G.S. Muanza, M. Mulhearn,O. Mundal,L. Mundim,E. Nagy,M. Naimuddin,M. Narain, H.A. Neal,J.P. Negret, P. Neustroev, H. Nilsen, H. Nogima,S.F. Novaes, T. Nunnemann,G. Obrant, C. Ochando,D. Onoprienko,J. Orduna,N. Oshima,N. Osman,J. Osta,R. Otec,G.J. Otero y Garzón,M. Owen,M. Padilla, P. Padley,M. Pangilinan,N. Parashar,S.-J. Park,S.K. Park, J. Parsons,R. Partridge,N. Parua, A. Patwa,B. Penning, M. Perfilov,K. Peters,Y. Peters,P. Pétroff, R. Piegaia,J. Piper, M.-A. Pleier,P.L.M. Podesta-Lerma,V.M. Podstavkov,Y. Pogorelov,M.-E. Pol,P. Polozov,A.V. Popov,M. Prewitt, S. Protopopescu,J. Qian, A. Quadt,B. Quinn,A. Rakitine, M.S. Rangel,K. Ranjan,P.N. Ratoff, P. Renkel,P. Rich,M. Rijssenbeek,I. Ripp-Baudot, F. Rizatdinova,S. Robinson,M. Rominsky,C. Royon, P. Rubinov, R. Ruchti, G. Safronov, G. Sajot,A. Sánchez-Hernández,M.P. Sanders, B. Sanghi,G. Savage,L. Sawyer,T. Scanlon, D. Schaile,R.D. Schamberger,Y. Scheglov,H. Schellman,T. Schliephake,S. Schlobohm, C. Schwanenberger,R. Schwienhorst,J. Sekaric, H. Severini,E. Shabalina, M. Shamim,V. Shary,A.A. Shchukin, R.K. Shivpuri,V. Siccardi, V. Simak,V. Sirotenko, P. Skubic,P. Slattery,D. Smirnov,G.R. Snow, J. Snow,S. Snyder,S. Söldner-Rembold, L. Sonnenschein,A. Sopczak, M. Sosebee,K. Soustruznik, B. Spurlock,J. Stark, V. Stolin,D.A. Stoyanova,J. Strandberg, M.A. Strang,E. Strauss, M. Strauss,R. Ströhmer,D. Strom,L. Stutte,S. Sumowidagdo,P. Svoisky,M. Takahashi, A. Tanasijczuk,W. Taylor,B. Tiller,M. Titov,V.V. Tokmenin,I. Torchiani, D. Tsybychev,B. Tuchming,C. Tully,P.M. Tuts,R. Unalan,L. Uvarov,S. Uvarov,S. Uzunyan,P.J. van den Berg,R. Van Kooten,W.M. van Leeuwen, N. Varelas,E.W. Varnes,I.A. Vasilyev,P. Verdier, L.S. Vertogradov,M. Verzocchi,M. Vesterinen,D. Vilanova,P. Vint, P. Vokac,R. Wagner,H.D. Wahl,M.H.L.S. Wang, J. Warchol, G. Watts, M. Wayne,G. Weber,M. Weber,L. Welty-Rieger,A. Wenger, M. Wetstein,A. White, D. Wicke,M.R.J. Williams,G.W. Wilson,S.J. Wimpenny,M. Wobisch,D.R. Wood,T.R. Wyatt,Y. Xie,C. Xu,S. Yacoob,R. Yamada,W.-C. Yang,T. Yasuda,Y.A. Yatsunenko,Z. Ye,H. Yin,K. Yip,H.D. Yoo,S.W. Youn,J. Yu, C. Zeitnitz,S. Zelitch,T. Zhao,B. Zhou,J. Zhu, M. Zielinski, D. Zieminska,L. Zivkovic, V. Zutshi,E.G. Zverev

Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment（2009）

引用 21|浏览175

暂无评分

摘要

We present a new method for modeling the hadronic recoil in W→ℓν events produced at hadron colliders. The recoil is chosen from a library of recoils in Z→ℓℓ data events and overlaid on a simulated W→ℓν event. Implementation of this method requires that the data recoil library describe the properties of the measured recoil as a function of the true, rather than the measured, transverse momentum of the boson. We address this issue using a multidimensional Bayesian unfolding technique. We estimate the statistical and systematic uncertainties from this method for the W boson mass and width measurements assuming 1fb-1 of data from the Fermilab Tevatron. The uncertainties are found to be small and comparable to those of a more traditional parameterized recoil model. For the high precision measurements that will be possible with data from Run II of the Fermilab Tevatron and from the CERN LHC, the method presented in this paper may be advantageous, since it does not require an understanding of the measured recoil from first principles.

查看译文

关键词

W,Z,Mass,Width,Hadron,Collider,Tevatron,D0,Recoil

AI 理解论文

溯源树

样例

生成溯源树，研究论文发展脉络

Chat Paper

正在生成论文摘要