Systematic study of nuclear effects in p+Al, p+Au, d+Au, and He 3 + Au collisions at sNN =200 GeV using π0 production

PHENIX Collaboration

doi:10.1103/PhysRevC.105.064902

Systematic study of nuclear effects in p+Al, p+Au, d+Au, and He 3 + Au collisions at sNN =200 GeV using π0 production

PHENIX Collaboration

Georgia State University
University of Colorado Boulder
UMass Amherst
University of Michigan, Ann Arbor
Stony Brook University
RIKEN Nishina Center for Accelerator-Based Science
Riken BNL Research Center
New Mexico State University
Howard University
Columbia University
High Energy Accelerator Research Organization (KEK)
Kyoto University
Iowa State University
University of Tokyo
Oak Ridge National Laboratory
Brookhaven National Laboratory Physics Department
Kurchatov Institute
Brookhaven National Laboratory
Florida Institute of Technology
University of California, Riverside
University of New Mexico
Abilene Christian University
Baruch College
Petersburg Nuclear Physics Institute (PNPI)
University of Münster
University of North Carolina at Greensboro
Vanderbilt University
St. Petersburg State Polytechnical University
Yonsei University
Kurchatov Institute
National Research Nuclear University MEPhI
MST-8, Los Alamos National Laboratory
Muhlenberg College
University of Illinois at Urbana-Champaign
Chonbuk National University
Bhabha Atomic Research Centre
Lund University
University of Tsukuba
Weizmann Institute of Science Israel
Eszterhazy Karoly University
Hungarian Academy of Sciences
Eötvös Loránd University
University of Maryland, College Park
Ohio University
Florida State University
University of São Paulo
Rikkyo University
Charles University
Nagasaki Institute of Applied Science
Czech Technical University in Prague
Banaras Hindu University
Lawrence Livermore National Laboratory
University of Tennessee
Augustana University
Nara Women's University
Ewha Womans University
Tsinghua University
Korea University
Texas Southern University
Japan Atomic Energy Agency
Hiroshima University
Myongji University
Université Paris-Saclay
Waseda University
University of Jyväskylä
Seoul National University
Sungkyunkwan University
Pusan National University
China Institute of Atomic Energy
University of Debrecen
University of Zagreb
Tokyo Institute of Technology
Florida A and M University
Institute for Nuclear Research of the Russian Academy of Sciences
Institut Pierre Simon Laplace, CNRS and CEA
Université Blaise Pascal
Institute of Physics of the Czech Academy of Sciences
IGFL, Université de Lyon, Université Lyon 1
Lahore University of Management Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

The PHENIX Collaboration presents a systematic study of inclusive π0 production from p+p, p+Al, p+Au, d+Au, and He3+Au collisions at sNN=200GeV. Measurements were performed with different centrality selections as well as the total inelastic, 0-100%, selection for all collision systems. For 0-100% collisions, the nuclear-modification factors, RxA, are consistent with unity for pT above 8GeV/c, but exhibit an enhancement in peripheral collisions and a suppression in central collisions. The enhancement and suppression characteristics are similar for all systems for the same centrality class. It is shown that for high-pT-π0 production, the nucleons in the d and He3 interact mostly independently with the Au nucleus and that the counterintuitive centrality dependence is likely due to a physical correlation between multiplicity and the presence of a hard scattering process. These observations disfavor models where parton energy loss has a significant contribution to nuclear modifications in small systems. Nuclear modifications at lower pT resemble the Cronin effect - an increase followed by a peak in central or inelastic collisions and a plateau in peripheral collisions. The peak height has a characteristic ordering by system size as p+Au>d+Au>He3+Au>p+Al. For collisions with Au ions, current calculations based on initial-state cold nuclear matter effects result in the opposite order, suggesting the presence of other contributions to nuclear modifications, in particular at lower pT.

Original language	English
Article number	064902
Journal	Physical Review C
Volume	105
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevC.105.064902
Publication status	Published - 1 Jun 2022

Access to Document

10.1103/PhysRevC.105.064902

Cite this

@article{d8efa5571a9c4126817c79dfd959c35f,

title = "Systematic study of nuclear effects in p+Al, p+Au, d+Au, and He 3 + Au collisions at sNN =200 GeV using π0 production",

abstract = "The PHENIX Collaboration presents a systematic study of inclusive π0 production from p+p, p+Al, p+Au, d+Au, and He3+Au collisions at sNN=200GeV. Measurements were performed with different centrality selections as well as the total inelastic, 0-100\%, selection for all collision systems. For 0-100\% collisions, the nuclear-modification factors, RxA, are consistent with unity for pT above 8GeV/c, but exhibit an enhancement in peripheral collisions and a suppression in central collisions. The enhancement and suppression characteristics are similar for all systems for the same centrality class. It is shown that for high-pT-π0 production, the nucleons in the d and He3 interact mostly independently with the Au nucleus and that the counterintuitive centrality dependence is likely due to a physical correlation between multiplicity and the presence of a hard scattering process. These observations disfavor models where parton energy loss has a significant contribution to nuclear modifications in small systems. Nuclear modifications at lower pT resemble the Cronin effect - an increase followed by a peak in central or inelastic collisions and a plateau in peripheral collisions. The peak height has a characteristic ordering by system size as p+Au>d+Au>He3+Au>p+Al. For collisions with Au ions, current calculations based on initial-state cold nuclear matter effects result in the opposite order, suggesting the presence of other contributions to nuclear modifications, in particular at lower pT.",

author = "\{PHENIX Collaboration\} and Acharya, \{U. A.\} and A. Adare and C. Aidala and Ajitanand, \{N. N.\} and Y. Akiba and H. Al-Bataineh and J. Alexander and M. Alfred and V. Andrieux and A. Angerami and K. Aoki and N. Apadula and Y. Aramaki and H. Asano and Atomssa, \{E. T.\} and R. Averbeck and Awes, \{T. C.\} and B. Azmoun and V. Babintsev and M. Bai and G. Baksay and L. Baksay and Bandara, \{N. S.\} and B. Bannier and Barish, \{K. N.\} and B. Bassalleck and Basye, \{A. T.\} and S. Bathe and V. Baublis and C. Baumann and A. Bazilevsky and M. Beaumier and S. Beckman and S. Belikov and R. Belmont and R. Bennett and A. Berdnikov and Y. Berdnikov and Bhom, \{J. H.\} and L. Bichon and B. Blankenship and Blau, \{D. S.\} and Bok, \{J. S.\} and V. Borisov and K. Boyle and O. Drapier and F. Fleuret and M. Gonin and \{Granier De Cassagnac\}, R. and M. Nguyen",

note = "Publisher Copyright: {\textcopyright} 2022 American Physical Society.",

year = "2022",

month = jun,

day = "1",

doi = "10.1103/PhysRevC.105.064902",

language = "English",

volume = "105",

journal = "Physical Review C",

issn = "2469-9985",

number = "6",

}

TY - JOUR

T1 - Systematic study of nuclear effects in p+Al, p+Au, d+Au, and He 3 + Au collisions at sNN =200 GeV using π0 production

AU - PHENIX Collaboration

AU - Acharya, U. A.

AU - Adare, A.

AU - Aidala, C.

AU - Ajitanand, N. N.

AU - Akiba, Y.

AU - Al-Bataineh, H.

AU - Alexander, J.

AU - Alfred, M.

AU - Andrieux, V.

AU - Angerami, A.

AU - Aoki, K.

AU - Apadula, N.

AU - Aramaki, Y.

AU - Asano, H.

AU - Atomssa, E. T.

AU - Averbeck, R.

AU - Awes, T. C.

AU - Azmoun, B.

AU - Babintsev, V.

AU - Bai, M.

AU - Baksay, G.

AU - Baksay, L.

AU - Bandara, N. S.

AU - Bannier, B.

AU - Barish, K. N.

AU - Bassalleck, B.

AU - Basye, A. T.

AU - Bathe, S.

AU - Baublis, V.

AU - Baumann, C.

AU - Bazilevsky, A.

AU - Beaumier, M.

AU - Beckman, S.

AU - Belikov, S.

AU - Belmont, R.

AU - Bennett, R.

AU - Berdnikov, A.

AU - Berdnikov, Y.

AU - Bhom, J. H.

AU - Bichon, L.

AU - Blankenship, B.

AU - Blau, D. S.

AU - Bok, J. S.

AU - Borisov, V.

AU - Boyle, K.

AU - Drapier, O.

AU - Fleuret, F.

AU - Gonin, M.

AU - Granier De Cassagnac, R.

AU - Nguyen, M.

PY - 2022/6/1

Y1 - 2022/6/1

N2 - The PHENIX Collaboration presents a systematic study of inclusive π0 production from p+p, p+Al, p+Au, d+Au, and He3+Au collisions at sNN=200GeV. Measurements were performed with different centrality selections as well as the total inelastic, 0-100%, selection for all collision systems. For 0-100% collisions, the nuclear-modification factors, RxA, are consistent with unity for pT above 8GeV/c, but exhibit an enhancement in peripheral collisions and a suppression in central collisions. The enhancement and suppression characteristics are similar for all systems for the same centrality class. It is shown that for high-pT-π0 production, the nucleons in the d and He3 interact mostly independently with the Au nucleus and that the counterintuitive centrality dependence is likely due to a physical correlation between multiplicity and the presence of a hard scattering process. These observations disfavor models where parton energy loss has a significant contribution to nuclear modifications in small systems. Nuclear modifications at lower pT resemble the Cronin effect - an increase followed by a peak in central or inelastic collisions and a plateau in peripheral collisions. The peak height has a characteristic ordering by system size as p+Au>d+Au>He3+Au>p+Al. For collisions with Au ions, current calculations based on initial-state cold nuclear matter effects result in the opposite order, suggesting the presence of other contributions to nuclear modifications, in particular at lower pT.

AB - The PHENIX Collaboration presents a systematic study of inclusive π0 production from p+p, p+Al, p+Au, d+Au, and He3+Au collisions at sNN=200GeV. Measurements were performed with different centrality selections as well as the total inelastic, 0-100%, selection for all collision systems. For 0-100% collisions, the nuclear-modification factors, RxA, are consistent with unity for pT above 8GeV/c, but exhibit an enhancement in peripheral collisions and a suppression in central collisions. The enhancement and suppression characteristics are similar for all systems for the same centrality class. It is shown that for high-pT-π0 production, the nucleons in the d and He3 interact mostly independently with the Au nucleus and that the counterintuitive centrality dependence is likely due to a physical correlation between multiplicity and the presence of a hard scattering process. These observations disfavor models where parton energy loss has a significant contribution to nuclear modifications in small systems. Nuclear modifications at lower pT resemble the Cronin effect - an increase followed by a peak in central or inelastic collisions and a plateau in peripheral collisions. The peak height has a characteristic ordering by system size as p+Au>d+Au>He3+Au>p+Al. For collisions with Au ions, current calculations based on initial-state cold nuclear matter effects result in the opposite order, suggesting the presence of other contributions to nuclear modifications, in particular at lower pT.

U2 - 10.1103/PhysRevC.105.064902

DO - 10.1103/PhysRevC.105.064902

M3 - Article

AN - SCOPUS:85132354628

SN - 2469-9985

VL - 105

JO - Physical Review C

JF - Physical Review C

IS - 6

M1 - 064902

ER -

Systematic study of nuclear effects in p+Al, p+Au, d+Au, and He 3 + Au collisions at sNN =200 GeV using π0 production

Abstract

Access to Document

Fingerprint

Cite this