Measurement of ψ(2S) nuclear modification at backward and forward rapidity in p+p,
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D. K. Mishra | A. Sukhanov | R. Hollis | A. Mignerey | R. Nouicer | M. Patel | J. Hanks | Z. Citron | N. Grau | A. Milov | V. Vrba | C. Woody | S. Stoll | D. Isenhower | D. Perepelitsa | Y. Yamaguchi | M. Snowball | J. Velkovska | S. Greene | K. Dehmelt | M. Csanád | T. Csörgő | T. Novák | M. Tomášek | R. Soltz | Y. Leung | K. Imai | C. Ogilvie | M. Shimomura | K. Tanida | J. Haggerty | S. Lökös | I. Yoon | J. Frantz | V. Papavassiliou | D. Mcglinchey | K. Read | A. Khatiwada | J. Sun | C. Aidala | J. Durham | A. Sickles | A. Iordanova | L. Xue | M. Potekhin | G. Ottino | J. Nagle | J. Sziklai | N. Apadula | Y. Berdnikov | D. Blau | D. Dixit | H. Hamagaki | B. Jacak | A. Kazantsev | A. Khanzadeev | V. Manko | C. Nattrass | N. Novitzky | A. Nyanin | V. Riabov | D. Silvermyr | S. Sorensen | R. Tieulent | A. Enokizono | M. Mondal | D. Peressounko | I. Yushmanov | S. Esumi | M. Kim | V. Loggins | R. Belmont | M. Connors | V. C. Roman | P. Stankus | S. Yalcin | B. Schaefer | P. Garg | W. Zajc | K. Barish | M. Daugherity | R. Esha | D. Kapukchyan | D. Kincses | T. Niida | H. Sako | R. Seto | A. Taranenko | W. Sondheim | G. Mitsuka | P. Shukla | J. Osborn | A. Frawley | R. Seidl | T. Rinn | T. Hachiya | V. Pantuev | J. Park | A. Berdnikov | A. Drees | A. Franz | C. Chi | S. Bathe | K. Drees | A. Durum | A. Yanovich | K. Kurita | I. Shein | T. Sakaguchi | M. Harvey | A. Bazilevsky | H. Hamilton | S. Pate | Y. Akiba | H. Asano | B. Azmoun | V. Babintsev | N. Bandara | M. Beaumier | J. Bok | M. Brooks | J. Bryslawskyj | V. Bumazhnov | S. Campbell | I. Choi | N. Cronin | G. David | K. DeBlasio | A. Denisov | E. Desmond | A. Dion | J. Do | B. Fadem | N. Feege | D. Fields | C. Gal | H. Ge | M. Perdekamp | H. Guragain | K. Hahn | S. Hasegawa | T. Haseler | X. He | T. Hemmick | T. Hoshino | J. Huang | M. Jezghani | D. Jouan | D. Jumper | D. Kawall | E. Kim | E. Kistenev | J. Klatsky | P. Kline | T. Koblesky | D. Kotov | J. Lajoie | A. Lebedev | M. Leitch | M. Liu | D. Lynch | Y. Makdisi | M. Makek | E. Mannel | M. McCumber | P. McGaughey | C. McKinney | M. Mendoza | S. Miyasaka | S. Mizuno | P. Montuenga | T. Moon | D. Morrison | T. Murakami | J. Murata | I. Nakagawa | K. Nakano | E. O’Brien | J. Koop | A. Oskarsson | G. Perera | J. Perry | R. Petti | C. Pinkenburg | R. Pisani | D. Reynolds | Y. Riabov | S. Rolnick | M. Rosati | Z. Rowan | A. Safonov | V. Samsonov | M. Sarsour | B. Schmoll | K. Sedgwick | A. Sen | A. Sexton | T. Shibata | C. Silva | C. P. Singh | V. Singh | I. Sourikova | T. Sumita | M. Tannenbaum | S. Tarafdar | A. Timilsina | T. Todoroki | C. Towell | R. Towell | I. Tserruya | M. Virius | X. Wang | Y. Watanabe | H. Yu | A. Zelenski | L. Zou | M. Alfred | H. En’yo | F. Giordano | Y. Goto | K. Homma | B. Hong | D. Ivanishchev | K. Ozawa | D. Sharma | K. Shigaki | A. Acharya | J. Yoo | S. Zharko | M. Chiu | R. Corliss | T. Danley | W. Fan | S. Fokin | T. Gunji | J. Hill | K. Hill | A. Hodges | M. Inaba | Z. Ji | B. Johnson | V. Khachatryan | N. Lewis | T. Majoros | I. Mitrankov | B. Mulilo | K. Nagashima | M. Nagy | S. Nelson | W. Peng | C. PerezLara | A. Pun | M. Purschke | P. Radzevich | D. Richford | J. Runchey | B. Singh | M. Slunecka | T. Sugitate | Y. Ueda | B. Ujvari | N. Hotvedt | S. Karthas | S. Kudo | G. Tarnai | C. Wong | C. Xu | V. Andrieux | R. Cervantes | K. Lovász | T. Shioya | N. Vukman | A. Deshpande | L. Bichon | B. Blankenship | V. Borisov | M. Finger | D. Fitzgerald | Y. Fukuda | P. Gallus | M. Giles | X. Jiang | T. Kim | A. Kingan | L. Kovács | Y. Kwon | D. Larionova | S. Lee | S. H. Lim | D. A. Loomis | J. T. Mitchell | M. Mitrankova | K. Nagai | T. Nagashima | G. Nukazuka | S. Park | M. Phipps | N. Ramasubramanian | S. Sato | C. L. Silva | K. Smith | Q. Xu | H. Yamamoto | X. Li | Z. Sun | J. Choi | J. Kang | S. Han | C. Kim | S. H. Lee | S. Lee | C. Kim | B. Singh | S. Yalçın | Y. Kwon | W. Fan | B. Hong | H. Yu | T. Novak | C. Xu | L. Xue | S. H. Lim
[1] Christian Schmidt,et al. Centrality dependence of J/ψ and ψ(2S) production and nuclear modification in p-Pb collisions at √sNN = 8.16 TeV , 2021 .
[2] H. Shao,et al. Reweighted nuclear PDFs using heavy-flavor production data at the LHC , 2020, Physical Review D.
[3] D. K. Mishra,et al. Polarization and cross section of midrapidity J/ψ production in p+p collisions at s=510 GeV , 2020, 2005.14273.
[4] H. Shao. Probing impact-parameter dependent nuclear parton densities from double parton scatterings in heavy-ion collisions , 2020, Physical Review D.
[5] Y. Leung. Measurements of charm, bottom, and Drell-Yan via dimuons in p+p and p+Au collisions at sNN=200GeV with PHENIX at RHIC , 2019, Nuclear Physics A.
[6] R. Rapp,et al. In-medium charmonium production in proton-nucleus collisions , 2018, Journal of High Energy Physics.
[7] Jr.,et al. Measurements of μμ pairs from open heavy flavor and Drell-Yan in p+p collisions at s=200 GeV , 2018, Physical Review D.
[8] C. Collaboration. Measurement of prompt ψ(2S) production cross sections in proton–lead and proton–proton collisions at sNN=5.02TeV , 2018, Physics Letters B.
[9] D. K. Mishra,et al. Creation of quark–gluon plasma droplets with three distinct geometries , 2018, Nature Physics.
[10] K. Sato,et al. Pseudorapidity Dependence of Particle Production and Elliptic Flow in Asymmetric Nuclear Collisions of p+Al, p+Au, d+Au, and ^{3}He+Au at sqrt[s_{NN}]=200 GeV. , 2018, Physical review letters.
[11] J. Nagle,et al. Small System Collectivity in Relativistic Hadronic and Nuclear Collisions , 2018, Annual Review of Nuclear and Particle Science.
[12] H. Shao,et al. Gluon Shadowing in Heavy-Flavor Production at the LHC. , 2017, Physical review letters.
[13] D. d’Enterria,et al. Improved Monte Carlo Glauber predictions at present and future nuclear colliders , 2017, 1710.07098.
[14] G. S. Averichev,et al. J / ψ production at low transverse momentum in p + p and d + Au collisions at √ sN N = 200 GeV , 2018 .
[15] Lan V. Truong,et al. Measurement of quarkonium production in proton–lead and proton–proton collisions at \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \beg , 2017, The European physical journal. C, Particles and fields.
[16] A. S. Mete,et al. Measurement of multi-particle azimuthal correlations in pp, p + Pb and low-multiplicity Pb + Pb collisions with the ATLAS detector , 2017, The European Physical Journal. C, Particles and Fields.
[17] K. O. Eyser,et al. B -meson production at forward and backward rapidity in p+p and Cu + Au collisions at sNN =200 GeV , 2017, 1702.01085.
[18] K. Eskola,et al. EPPS16: nuclear parton distributions with LHC data , 2017, The European Physical Journal C.
[19] H. Shao,et al. Towards an automated tool to evaluate the impact of the nuclear modification of the gluon density on quarkonium, D and B meson production in proton–nucleus collisions , 2016, The European Physical Journal C.
[20] Nasim,et al. Measurement of elliptic flow of light nuclei at sNN =200, 62.4, 39, 27, 19.6, 11.5, and 7.7 GeV at the BNL Relativistic Heavy Ion Collider , 2016 .
[21] Hua-Sheng Shao,et al. HELAC-Onia 2.0: An upgraded matrix-element and event generator for heavy quarkonium physics , 2015, Comput. Phys. Commun..
[22] I. Schienbein,et al. nCTEQ15 - Global analysis of nuclear parton distributions with uncertainties , 2015, 1509.01801.
[23] J. T. Childers,et al. Measurement of differential J/ψ production cross sections and forward-backward ratios in p + Pb collisions with the ATLAS detector , 2015 .
[24] R. Pak,et al. The PHENIX Forward Silicon Vertex Detector , 2013, 1311.3594.
[25] Andrea Benaglia,et al. Measurement of the prompt J/ψ and ψ(2S) polarizations in pp collisions at s=7 TeV , 2013 .
[26] P. Henrard,et al. Measurement of J/ψ polarization in pp collisions at √s =7 TeV , 2013 .
[27] P. Henrard,et al. Study of J/ψ production and cold nuclear matter effects in pPb collisions at $ \sqrt{{{s_{NN }}}} $ = 5 TeV , 2013, 1308.6729.
[28] J Ying,et al. Nuclear modification of ψ', χc, and J/ψ production in d+Au collisions at sqrt[s(NN)]=200 GeV. , 2013, Physical review letters.
[29] M. Ikeno,et al. Trigger electronics upgrade of PHENIX muon tracker , 2013 .
[30] Hua-Sheng Shao,et al. HELAC-Onia: An automatic matrix element generator for heavy quarkonium physics , 2012, Comput. Phys. Commun..
[31] R. Vogt,et al. Impact-parameter dependence of the nuclear modification of J/ψ production in d+Au collisions at √[sNN]=200 GeV , 2012, 1208.2667.
[32] F. Fleuret,et al. Transverse-momentum dependence of the J/ψ nuclear modification in d+Au collisions at √sNN=200 GeV , 2012, 1204.0777.
[33] ALICE Collaboration,et al. Long-range angular correlations on the near and away side in p – Pb collisions at √ s NN = 5 . 02 TeV ✩ , 2013 .
[34] J. G. Contreras,et al. J/ψ polarization in pp collisions at √s=7 TeV. , 2011, 1111.1630.
[35] H. K. Wöhri,et al. Heavy quarkonium: progress, puzzles, and opportunities , 2010, 1010.5827.
[36] D. Volyanskyy,et al. Observation of long-range, near-side angular correlations in proton-proton collisions at the LHC , 2010, 1009.4122.
[37] Ralf Rapp,et al. Charmonium in medium: From correlators to experiment , 2010, 1008.5328.
[38] R. Vogt. M ar 2 01 0 Cold Nuclear Matter Effects on J / ψ and Υ Production at the LHC , 2010 .
[39] K. Eskola,et al. EPS09: A New Generation of NLO and LO Nuclear Parton Distribution Functions , 2009, 0902.4154.
[40] Peter Skands,et al. A brief introduction to PYTHIA 8.1 , 2007, Comput. Phys. Commun..
[41] I. Vitev. Non-Abelian energy loss in cold nuclear matter , 2007, hep-ph/0703002.
[42] Results from Vernier Scans at RHIC during the pp run 2001-2002 , 2003, Proceedings of the 2003 Particle Accelerator Conference.
[43] Andy W. Brown,et al. PHENIX Muon Arms , 2003 .
[44] A. Dell'Acqua,et al. Geant4 - A simulation toolkit , 2003 .
[45] Hayes,et al. Review of Particle Physics. , 1996, Physical review. D, Particles and fields.
[46] M. Shochet,et al. Production of hadrons with large transverse momentum at 200, 300, and 400 GeV , 1975 .
[47] M. Shochet,et al. Production of Hadrons with Large Transverse Momentum at 200 and 300 GeV , 1973 .