Correlations of $\mu\mu$, $e\mu$, and $ee$ pairs in $p$+$p$ collisions at $\sqrt{s}=200$ GeV and implications for $c\bar{c}$ and $b\bar{b}$ production mechanisms

C.A. Aidala,Y. Akiba,M. Alfred,V. Andrieux,N. Apadula,H. Asano,B. Azmoun,V. Babintsev,A. Bagoly,N. S. Bandara,K N Barish,S. Bathe,A. Bazilevsky,M Beaumier,R. Belmont,A. Berdnikov,Y. Berdnikov,Dmitry Blau,M. Boer,J. S. Bok,M.L. Brooks,J. Bryslawskyj,V. Bumazhnov,S. Campbell,V. Canoa Roman,R Cervantes,C. Y. Chi,M. Chiu,I.J. Choi,J. B. Choi,Zvi Hirsh Citron,Megan Elizabeth Connors,N. Cronin,Máté Csanád,T. Csörgő,T. W. Danley,M. S. Daugherity,G. David,K. DeBlasio,K. Dehmelt,A. Denisov,A Deshpande,E J Desmond,A Dion,D Dixit,J.H. Do,A. Drees,K.A.Drees,J.M. Durham,A. Durum,A. Enokizono,H. En'yo,S.Esumi,B Fadem,W. Fan,N. Feege,D E Fields,M. Finger,Sergey Fokin,J. E. Frantz,A Franz,A.D. Frawley,Y. Fukuda,C. Gal,P. Gallus,Prakhar Garg,H. Ge,F Giordano,Y. Goto,N. Grau,S.V. Greene,M. Grosse Perdekamp,Taku Gunji,H. Guragain,T. Hachiya,J.S. Haggerty,K. I. Hahn,H. Hamagaki,H. F. Hamilton,S Y Han,J. Hanks,S. Hasegawa,T O S Haseler,Xi He,T.K. Hemmick,J. C. Hill,Kurt Keys Hill,A. Hodges,R. S. Hollis,K. Homma,B. Hong,T. Hoshino,N. Hotvedt,J Huang,S Huang,K. Imai,Motoi Inaba,A. Iordanova,D. Isenhower,D. Ivanishchev,B. V. Jacak,M. Jezghani,Z. Ji,X. Jiang,B. M. Johnson,D. Jouan,D. S. Jumper,J. H. Kang,David Kapukchyan,S. Karthas,D Kawall,A. V. Kazantsev,Vardan Khachatryan,A. Khanzadeev,C. O. Kim,E.-J. Kim,Miyoung Kim,D. Kincses,E Kistenev,J. Klatsky,P. Kline,T. Koblesky,D. Kotov,S. Kudo,K. Kurita,Y. J. Kwon,J. G. Lajoie,A. Lebedev,S Lee,Shih-Chang Lee,M. J. Leitch,Y H Leung,N. A. Lewis,Xinlin Li,S. H. Lim,M. X. Liu,V. R. Loggins,S. Lokos,K. Lovasz,D. Lynch,T. Majoros,Y.I. Makdisi,Mihael Makek,Vladislav Manko,E. Mannel,M Mccumber,P. L. McGaughey,Don McGlinchey,C. McKinney,M. Mendoza,A.C. Mignerey,D. E. Mihalik,A. Milov,D K Mishra,J. T. Mitchell,G. Mitsuka,S. Miyasaka,S. Mizuno,P. Montuenga,Taebong Moon,D.P. Morrison,S.I. Morrow,T. Murakami,J Murata,K. Nagai,Kei Nagashima,T. Nagashima,J.L. Nagle,Marton Imre Nagy,I. Nakagawa,K. Nakano,Christine Nattrass,Takafumi Niida,R. Nouicer,Tamás Novák,Norbert Novitzky,A. S. Nyanin,E OBrien,C.A. Ogilvie,J.D.Orjuela Koop,Joseph Daniel Osborn,Anders Nils Erik Oskarsson,G.J. Ottino,K. Ozawa,V.S. Pantuev,V. Papavassiliou,J.S. Park,S K Park,S. F. Pate,M. Patel,W Peng,D. V. Perepelitsa,G.D.N. Perera,D Yu Peressounko,C.E. PerezLara,J. Perry,R. Petti,Michael William Phipps,C Pinkenburg,R. P. Pisani,M.L. Purschke,P.V. Radzevich,Kenneth Francis Read,D. Reynolds,Viktor Riabov,Y. Riabov,D. Richford,T. Rinn,S. D. Rolnick,M. Rosati,Z. Rowan,J. Runchey,A. Safonov,T. Sakaguchi,H. Sako,Vladimir Samsonov,M. Sarsour,Shunsuke A. Sato,Brennan Schaefer,B. K. Schmoll,K. Sedgwick,R. Seidl,A Sen,R. Seto,A. Sexton,D Sharma,I. Shein,T. A. Shibata,K. Shigaki,Maya Shimomura,T. Shioya,P. Shukla,A.M. Sickles,C. L Silva,David Olle Rickard Silvermyr,Brajesh K. Singh,C. P. Singh,V. Singh,M.J. Skoby,M. Slunecka,Matthew Snowball,R.A. Soltz,W. E. Sondheim,S. P. Sorensen,I. V. Sourikova,P.W. Stankus,S. P. Stoll,T. Sugitate,A. Sukhanov,T Sumita,J. Sun,Z. Sun,J. Sziklai,K Tanida,M.J. Tannenbaum,S. Tarafdar,A. Taranenko,G. Tárnái,Raphael Noel Tieulent,A. Timilsina,Takahito Todoroki,M. Tomasek,C. L. Towell,R. S. Towell,I. Tserruya,Y. Ueda,Balázs Ujvári,H. W. van Hecke,J. Velkovska,M. Virius,V Vrba,N. Vukman,X.R. Wang,Y. Watanabe,C. P. Wong,C. L. Woody,C Xu,Q. Xu,L Xue,Serpil Yalcin,Y. L. Yamaguchi,H Yamamoto,A. Yanovich,Jaehyeok Yoo,Inseok Yoon,H.W. Yu,I. E. Yushmanov,W. A. Zajc,A.N. Zelenski,S. Zharko,L. Zou

Correlations of $\mu\mu$, $e\mu$, and $ee$ pairs in $p$+$p$ collisions at $\sqrt{s}=200$ GeV and implications for $c\bar{c}$ and $b\bar{b}$ production mechanisms

2018

PHENIX has measured the azimuthal correlations of muon pairs from charm and bottom semi-leptonic decays in $p$+$p$ collisions at $\sqrt{s}=200$ GeV, using a novel analysis technique utilizing both unlike- and like-sign muon pairs to separate charm, bottom and Drell-Yan contributions. The dimuon measurements combined with the previous electron-muon and dielectron measurements span a wide range in rapidity, and are well described by PYTHIA Tune A. Through a Bayesian analysis based on PYTHIA Tune A, we show that leading order pair creation is the dominant $(76\%\pm^{14}_{19}\%)$ contribution for $b\bar{b}$ production, whereas the data favor the scenario in which next-to-leading-order processes dominate $c\bar{c}$ production. The small contribution of next-to-leading-order processes in $b\bar{b}$ production at the collision energies of the Relativistic Heavy Ion Collider contrasts with the case at Large-Hadron-Collider energies, where next-to-leading-order processes are expected to dominate.

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