Measurement of flow coefficients in high-multiplicity p+Au, d+Au, and He 3 + Au collisions at sNN =200 GeV

Authors

M. I. Abdulhamid, The American University in Cairo
B. E. Aboona, Texas A&M University
J. Adam, Czech Technical University in Prague
J. R. Adams, The Ohio State University
G. Agakishiev, Joint Institute for Nuclear Research, Dubna
I. Aggarwal, Panjab University
M. M. Aggarwal, Panjab University
Z. Ahammed, Variable Energy Cyclotron Centre India
A. Aitbaev, Joint Institute for Nuclear Research, Dubna
I. Alekseev, Alikhanov Institute for Theoretical and Experimental Physics
E. Alpatov, National Research Nuclear University
A. Aparin, Joint Institute for Nuclear Research, Dubna
S. Aslam, Indian Institute of Technology Patna
J. Atchison, Abilene Christian University
G. S. Averichev, Joint Institute for Nuclear Research, Dubna
V. Bairathi, Universidad de Tarapacac
J. G.Ball Cap, University of Houston
K. Barish, University of California, Riverside
P. Bhagat, University of Jammu

Funding Sponsor

National Research Foundation of Korea

Find in your Library

https://doi.org/10.1103/PhysRevC.110.064902

All Authors

M. I. Abdulhamid, B. E. Aboona, J. Adam, J. R. Adams, G. Agakishiev, I. Aggarwal, M. M. Aggarwal, Z. Ahammed, A. Aitbaev, I. Alekseev, E. Alpatov, A. Aparin, J. Atchison, G. S. Averichev, V. Bairathi, J. G.Ball Cap, K. Barish, P. Bhagat

Document Type

Research Article

Publication Title

Physical Review C

Publication Date

12-1-2024

doi

10.1103/PhysRevC.110.064902

Abstract

Flow coefficients (v2 and v3) are measured in high-multiplicity p+Au, d+Au, and He3+Au collisions at a center-of-mass energy of sNN=200 GeV using the STAR detector. The measurements utilize two-particle correlations with a pseudorapidity requirement of |η|< 0.9 and a pair gap of |Δη|>1.0. The primary focus is on analysis methods, particularly the subtraction of nonflow contributions. Four established nonflow subtraction methods are applied to determine vn, validated using the HIJING event generator. vn values are compared across the three collision systems at similar multiplicities; this comparison cancels the final-state effects and isolates the impact of initial geometry. While v2 values show differences among these collision systems, v3 values are largely similar, consistent with expectations of subnucleon fluctuations in the initial geometry. The ordering of vn differs quantitatively from previous measurements using two-particle correlations with a larger rapidity gap, which, according to model calculations, can be partially attributed to the effects of longitudinal flow decorrelations. The prospects for future measurements to improve our understanding of flow decorrelation and subnucleonic fluctuations are also discussed.

Comments

Article. Record derived from SCOPUS.

Recommended Citation

APA Citation

Abdulhamid, M. Aboona, B. Adam, J. Adams, J. ... (2024). Measurement of flow coefficients in high-multiplicity p+Au, d+Au, and He 3 + Au collisions at sNN =200 GeV. Physical Review C, 110(6), 10.1103/PhysRevC.110.064902
https://fount.aucegypt.edu/faculty_journal_articles/6016

MLA Citation

Abdulhamid, M. I., et al. "Measurement of flow coefficients in high-multiplicity p+Au, d+Au, and He 3 + Au collisions at sNN =200 GeV." Physical Review C, vol. 110,no. 6, 2024,
https://fount.aucegypt.edu/faculty_journal_articles/6016