Measurement of away-side broadening with self-subtraction of flow in Au+Au collisions at GeV *-Reference-Cited by-同舟云学术

Measurement of away-side broadening with self-subtraction of flow in Au+Au collisions at GeV *

Published:2020-10-01 Issue:10 Volume:44 Page:104001
ISSN:1674-1137
Container-title:Chinese Physics C
language:
Short-container-title:Chinese Phys. C

Author:

Adam J.,Adamczyk L.,Adams J. R.,Adkins J. K.,Agakishiev G.,Aggarwal M. M.,Ahammed Z.,Alekseev I.,Anderson D. M.,Aparin A.,Aschenauer E. C.,Ashraf M. U.,Atetalla F. G.,Attri A.,Averichev G. S.,Bairathi V.,Barish K.,Behera A.,Bellwied R.,Bhasin A.,Bielcik J.,Bielcikova J.,Bland L. C.,Bordyuzhin I. G.,Brandenburg J. D.,Brandin A. V.,Butterworth J.,Caines H.,Calderón de la Barca Sánchez M.,Cebra D.,Chakaberia I.,Chaloupka P.,Chan B. K.,Chang F-H.,Chang Z.,Chankova-Bunzarova N.,Chatterjee A.,Chen D.,Chen J. H.,Chen X.,Chen Z.,Cheng J.,Cherney M.,Chevalier M.,Choudhury S.,Christie W.,Chu X.,Crawford H. J.,Csanád M.,Daugherity M.,Dedovich T. G.,Deppner I. M.,Derevschikov A. A.,Didenko L.,Dong X.,Drachenberg J. L.,Dunlop J. C.,Edmonds T.,Elsey N.,Engelage J.,Eppley G.,Esumi S.,Evdokimov O.,Ewigleben A.,Eyser O.,Fatemi R.,Fazio S.,Federic P.,Fedorisin J.,Feng C. J.,Feng Y.,Filip P.,Finch E.,Fisyak Y.,Francisco A.,Fulek L.,Gagliardi C. A.,Galatyuk T.,Geurts F.,Gibson A.,Gopal K.,Grosnick D.,Guryn W.,Hamad A. I.,Hamed A.,Harabasz S.,Harris J. W.,He S.,He W.,He X. H.,Heppelmann S.,Heppelmann S.,Herrmann N.,Hoffman E.,Holub L.,Hong Y.,Horvat S.,Hu Y.,Huang H. Z.,Huang S. L.,Huang T.,Huang X.,Humanic T. J.,Huo P.,Igo G.,Isenhower D.,Jacobs W. W.,Jena C.,Jentsch A.,JI Y.,Jia J.,Jiang K.,Jowzaee S.,Ju X.,Judd E. G.,Kabana S.,Kabir M. L.,Kagamaster S.,Kalinkin D.,Kang K.,Kapukchyan D.,Kauder K.,Ke H. W.,Keane D.,Kechechyan A.,Kelsey M.,Khyzhniak Y. V.,Kikoła D. P.,Kim C.,Kimelman B.,Kincses D.,Kinghorn T. A.,Kisel I.,Kiselev A.,Kocan M.,Kochenda L.,Kosarzewski L. K.,Kramarik L.,Kravtsov P.,Krueger K.,Kulathunga Mudiyanselage N.,Kumar L.,Kumar S.,Kunnawalkam Elayavalli R.,Kwasizur J. H.,Lacey R.,Lan S.,Landgraf J. M.,Lauret J.,Lebedev A.,Lednicky R.,Lee J. H.,Leung Y. H.,Li C.,Li W.,Li W.,Li X.,Li Y.,Liang Y.,Licenik R.,Lin T.,Lin Y.,Lisa M. A.,Liu F.,Liu H.,Liu P.,Liu P.,Liu T.,Liu X.,Liu Y.,Liu Z.,Ljubicic T.,Llope W. J.,Longacre R. S.,Lukow N. S.,Luo S.,Luo X.,Ma G. L.,Ma L.,Ma R.,Ma Y. G.,Magdy N.,Majka R.,Mallick D.,Margetis S.,Markert C.,Matis H. S.,Mazer J. A.,Minaev N. G.,Mioduszewski S.,Mohanty B.,Mooney I.,Moravcova Z.,Morozov D. A.,Nagy M.,Nam J. D.,Md. Nasim,Nayak K.,Neff D.,Nelson J. M.,Nemes D. B.,Nie M.,Nigmatkulov G.,Niida T.,Nogach L. V.,Nonaka T.,Nunes A. S.,Odyniec G.,Ogawa A.,Oh S.,Okorokov V. A.,Page B. S.,Pak R.,Pandav A.,Panebratsev Y.,Pawlik B.,Pawlowska D.,Pei H.,Perkins C.,Pinsky L.,Pintér R. L.,Pluta J.,Porter J.,Posik M.,Pruthi N. K.,Przybycien M.,Putschke J.,Qiu H.,Quintero A.,Radhakrishnan S. K.,Ramachandran S.,Ray R. L.,Reed R.,Ritter H. G.,Rogachevskiy O. V.,Romero J. L.,Ruan L.,Rusnak J.,Sahoo N. R.,Sako H.,Salur S.,Sandweiss J.,Sato S.,Schmidke W. B.,Schmitz N.,Schweid B. R.,Seck F.,Seger J.,Sergeeva M.,Seto R.,Seyboth P.,Shah N.,Shahaliev E.,Shanmuganathan P. V.,Shao M.,Sheikh A. I.,Shen F.,Shen W. Q.,Shi S. S.,Shou Q. Y.,Sichtermann E. P.,Sikora R.,Simko M.,Singh J.,Singha S.,Smirnov N.,Solyst W.,Sorensen P.,Spinka H. M.,Srivastava B.,Stanislaus T. D. S.,Stefaniak M.,Stewart D. J.,Strikhanov M.,Stringfellow B.,Suaide A. A. P.,Sumbera M.,Summa B.,Sun X. M.,Sun X.,Sun Y.,Sun Y.,Surrow B.,Svirida D. N.,Szymanski P.,Tang A. H.,Tang Z.,Taranenko A.,Tarnowsky T.,Thomas J. H.,Timmins A. R.,Tlusty D.,Tokarev M.,Tomkiel C. A.,Trentalange S.,Tribble R. E.,Tribedy P.,Tripathy S. K.,Tsai O. D.,Tu Z.,Ullrich T.,Underwood D. G.,Upsal I.,Van Buren G.,Vanek J.,Vasiliev A. N.,Vassiliev I.,Videbæk F.,Vokal S.,Voloshin S. A.,Wang F.,Wang G.,Wang J. S.,Wang P.,Wang Y.,Wang Y.,Wang Z.,Webb J. C.,Weidenkaff P. C.,Wen L.,Westfall G. D.,Wieman H.,Wissink S. W.,Witt R.,Wu Y.,Xiao Z. G.,Xie G.,Xie W.,Xu H.,Xu N.,Xu Q. H.,Xu Y. F.,Xu Y.,Xu Z.,Xu Z.,Yang C.,Yang Q.,Yang S.,Yang Y.,Yang Z.,Ye Z.,Ye Z.,Yi L.,Yip K.,Zbroszczyk H.,Zha W.,Zhang C.,Zhang D.,Zhang S.,Zhang S.,Zhang X. P.,Zhang Y.,Zhang Y.,Zhang Z. J.,Zhang Z.,Zhang Z.,Zhao J.,Zhong C.,Zhou C.,Zhu X.,Zhu Z.,Zurek M.,Zyzak M.

Abstract

Abstract High transverse momentum (

) particle production is suppressed owing to the parton (jet) energy loss in the hot dense medium created in relativistic heavy-ion collisions. Redistribution of energy at low-to-modest

has been difficult to measure, owing to large anisotropic backgrounds. We report a data-driven method for background evaluation and subtraction, exploiting the away-side pseudorapidity gaps, to measure the jetlike correlation shape in Au+Au collisions at

GeV in the STAR experiment. The correlation shapes, for trigger particles

and various associated particle

ranges within

, are consistent with Gaussians, and their widths increase with centrality. The results indicate jet broadening in the medium created in central heavy-ion collisions.

Funder

Natural Science Foundation of Anhui Province

National Natural Science Foundation of China

Publisher

IOP Publishing

Subject

Astronomy and Astrophysics,Instrumentation,Nuclear and High Energy Physics

Link

https://iopscience.iop.org/article/10.1088/1674-1137/ab97a9/pdf

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