Inclusive cross sections, charge ratio and double-helicity asymmetries   for $\pi^+$ and $\pi^-$ production in $p$$+$$p$ collisions at $\sqrt{s}$=200   GeV

A. Adare; C. Aidala; N.N. Ajitanand; Y. Akiba; R. Akimoto; H.; Al-Ta'ani; J. Alexander; K.R. Andrews; A. Angerami; K. Aoki; N. Apadula; E.; Appelt; Y. Aramaki; R. Armendariz; E.C. Aschenauer; E.T. Atomssa; T.C. Awes,; B. Azmoun; V. Babintsev; M. Bai; B. Bannier; K.N. Barish; B. Bassalleck; A.T.; Basye; S. Bathe; V. Baublis; C. Baumann; A. Bazilevsky; R. Belmont; J.; Ben-Benjamin; R. Bennett; D.S. Blau; J.S. Bok; K. Boyle; M.L. Brooks; D.; Broxmeyer; H. Buesching; V. Bumazhnov; G. Bunce; S. Butsyk; S. Campbell; P.; Castera; C.-H. Chen; C.Y. Chi; M. Chiu; I.J. Choi; J.B. Choi; R.K. Choudhury,; P. Christiansen; T. Chujo; O. Chvala; V. Cianciolo; Z. Citron; B.A. Cole; Z.; Conesa del Valle; M. Connors; M. Csan\'ad; T. Cs\"org\H{o}; S. Dairaku; A.; Datta; G. David; M.K. Dayananda; A. Denisov; A. Deshpande; E.J. Desmond; K.V.; Dharmawardane; O. Dietzsch; A. Dion; M. Donadelli; O. Drapier; A. Drees; K.A.; Drees; J.M. Durham; A. Durum; L. D'Orazio; Y.V. Efremenko; T. Engelmore; A.; Enokizono; H. En'yo; S. Esumi; B. Fadem; D.E. Fields; M. Finger; M. Finger,; Jr.; F. Fleuret; S.L. Fokin; J.E. Frantz; A. Franz; A.D. Frawley; Y. Fukao,; T. Fusayasu; C. Gal; I. Garishvili; F. Giordano; A. Glenn; X. Gong; M. Gonin,; Y. Goto; R. Granier de Cassagnac; N. Grau; S.V. Greene; M. Grosse Perdekamp,; T. Gunji; L. Guo; H.-{\AA}. Gustafsson; J.S. Haggerty; K.I. Hahn; H.; Hamagaki; J. Hamblen; R. Han; J. Hanks; C. Harper; K. Hashimoto; E. Haslum,; R. Hayano; X. He; T.K. Hemmick; T. Hester; J.C. Hill; R.S. Hollis; W.; Holzmann; K. Homma; B. Hong; T. Horaguchi; Y. Hori; D. Hornback; S. Huang; T.; Ichihara; R. Ichimiya; H. Iinuma; Y. Ikeda; K. Imai; M. Inaba; A. Iordanova,; D. Isenhower; M. Ishihara; M. Issah; D. Ivanischev; Y. Iwanaga; B.V. Jacak,; J. Jia; X. Jiang; D. John; B.M. Johnson; T. Jones; K.S. Joo; D. Jouan; J.; Kamin; S. Kaneti; B.H. Kang; J.H. Kang; J.S. Kang; J. Kapustinsky; K.; Karatsu; M. Kasai; D. Kawall; A.V. Kazantsev; T. Kempel; A. Khanzadeev; K.M.; Kijima; B.I. Kim; D.J. Kim; E.-J. Kim; Y.-J. Kim; Y.K. Kim; E. Kinney; \'A.; Kiss; E. Kistenev; D. Kleinjan; P. Kline; L. Kochenda; B. Komkov; M. Konno,; J. Koster; D. Kotov; A. Kr\'al; G.J. Kunde; K. Kurita; M. Kurosawa; Y. Kwon,; G.S. Kyle; R. Lacey; Y.S. Lai; J.G. Lajoie; A. Lebedev; D.M. Lee; J. Lee,; K.B. Lee; K.S. Lee; S.H. Lee; S.R. Lee; M.J. Leitch; M.A.L. Leite; X. Li,; S.H. Lim; L.A. Linden Levy; H. Liu; M.X. Liu; B. Love; D. Lynch; C.F.; Maguire; Y.I. Makdisi; A. Manion; V.I. Manko; E. Mannel; Y. Mao; H. Masui; M.; McCumber; P.L. McGaughey; D. McGlinchey; C. McKinney; N. Means; M. Mendoza,; B. Meredith; Y. Miake; T. Mibe; A.C. Mignerey; K. Miki; A. Milov; J.T.; Mitchell; Y. Miyachi; A.K. Mohanty; H.J. Moon; Y. Morino; A. Morreale; D.P.; Morrison; S. Motschwiller; T.V. Moukhanova; T. Murakami; J. Murata; S.; Nagamiya; J.L. Nagle; M. Naglis; M.I. Nagy; I. Nakagawa; Y. Nakamiya; K.R.; Nakamura; T. Nakamura; K. Nakano; J. Newby; M. Nguyen; M. Nihashi; R.; Nouicer; A.S. Nyanin; C. Oakley; E. O'Brien; C.A. Ogilvie; M. Oka; K. Okada,; A. Oskarsson; M. Ouchida; K. Ozawa; R. Pak; V. Pantuev; V. Papavassiliou,; B.H. Park; I.H. Park; S.K. Park; S.F. Pate; L. Patel; H. Pei; J.-C. Peng; H.; Pereira; D.Yu. Peressounko; R. Petti; C. Pinkenburg; R.P. Pisani; M. Proissl,; M.L. Purschke; H. Qu; J. Rak; I. Ravinovich; K.F. Read; K. Reygers; V.; Riabov; Y. Riabov; E. Richardson; D. Roach; G. Roche; S.D. Rolnick; M.; Rosati; S.S.E. Rosendahl; J.G. Rubin; B. Sahlmueller; N. Saito; T. Sakaguchi,; V. Samsonov; S. Sano; M. Sarsour; T. Sato; M. Savastio; S. Sawada; K.; Sedgwick; R. Seidl; R. Seto; D. Sharma; I. Shein; T.-A. Shibata; K. Shigaki,; H.H. Shim; M. Shimomura; K. Shoji; P. Shukla; A. Sickles; C.L. Silva; D.; Silvermyr; C. Silvestre; K.S. Sim; B.K. Singh; C.P. Singh; V. Singh; M.; Slune\v{c}ka; T. Sodre; R.A. Soltz; W.E. Sondheim; S.P. Sorensen; I.V.; Sourikova; P.W. Stankus; E. Stenlund; S.P. Stoll; T. Sugitate; A. Sukhanov,; J. Sun; J. Sziklai; E.M. Takagui; A. Takahara; A. Taketani; R. Tanabe; Y.; Tanaka; S. Taneja; K. Tanida; M.J. Tannenbaum; S. Tarafdar; A. Taranenko; E.; Tennant; H. Themann; D. Thomas; M. Togawa; L. Tom\'a\v{s}ek; M.; Tom\'a\v{s}ek; H. Torii; R.S. Towell; I. Tserruya; Y. Tsuchimoto; K.; Utsunomiya; C. Vale; H.W. van Hecke; E. Vazquez-Zambrano; A. Veicht; J.; Velkovska; R. V\'ertesi; M. Virius; A. Vossen; V. Vrba; E. Vznuzdaev; X.R.; Wang; D. Watanabe; K. Watanabe; Y. Watanabe; Y.S. Watanabe; F. Wei; R. Wei,; J. Wessels; S.N. White; D. Winter; C.L. Woody; R.M. Wright; M. Wysocki; Y.L.; Yamaguchi; R. Yang; A. Yanovich; J. Ying; S. Yokkaichi; J.S. Yoo; Z. You,; G.R. Young; I. Younus; I.E. Yushmanov; W.A. Zajc; A. Zelenski; S. Zhou

arXiv:1409.1907·hep-ex·August 13, 2019

Inclusive cross sections, charge ratio and double-helicity asymmetries for $\pi^+$ and $\pi^-$ production in $p$$+$$p$ collisions at $\sqrt{s}$=200 GeV

A. Adare, C. Aidala, N.N. Ajitanand, Y. Akiba, R. Akimoto, H., Al-Ta'ani, J. Alexander, K.R. Andrews, A. Angerami, K. Aoki, N. Apadula, E., Appelt, Y. Aramaki, R. Armendariz, E.C. Aschenauer, E.T. Atomssa, T.C. Awes,, B. Azmoun, V. Babintsev, M. Bai, B. Bannier, K.N. Barish

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TL;DR

This paper reports measurements of inclusive charged pion cross sections, charge ratios, and double-helicity asymmetries in polarized proton-proton collisions at 200 GeV, providing insights into fragmentation functions and gluon polarization.

Contribution

It provides new experimental data on pion production and asymmetries, highlighting discrepancies in theoretical charge ratio predictions and offering constraints on quark and gluon helicity distributions.

Findings

01

Cross sections agree with QCD calculations within uncertainties.

02

The measured charge ratio is lower than theoretical predictions.

03

Double-helicity asymmetries probe gluon polarization in the proton.

Abstract

We present the midrapidity charged pion invariant cross sections and the ratio of $π^{-}$ -to- $π^{+}$ production ( $5 < p_{T} < 13$ GeV/ $c$ ), together with the double-helicity asymmetries ( $5 < p_{T} < 12$ GeV/ $c$ ) in polarized $p$ $+$ $p$ collisions at $s = 200$ GeV. The cross section measurements are consistent with perturbative calculations in quantum chromodynamics within large uncertainties in the calculation due to the choice of factorization, renormalization, and fragmentation scales. However, the theoretical calculation of the ratio of $π^{-}$ -to- $π^{+}$ production when considering these scale uncertainties overestimates the measured value, suggesting further investigation of the uncertainties on the charge-separated pion fragmentation functions is needed. Due to cancellations of uncertainties in the charge ratio, direct inclusion of these ratio data in future parameterizations should…

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Taxonomy

TopicsParticle physics theoretical and experimental studies · High-Energy Particle Collisions Research · Quantum Chromodynamics and Particle Interactions