Measurement of away-side broadening with self-subtraction of flow in Au+Au collisions at sNN = 200 GeV,Chinese Physics C

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Measurement of away-side broadening with self-subtraction of flow in Au+Au collisions at sNN = 200 GeV
Chinese Physics C ( IF 3.6 ) Pub Date : 2020-09-10 , DOI: 10.1088/1674-1137/ab97a9
J. Adam ₁ , L. Adamczyk ₂ , J. R. Adams ₃ , J. K. Adkins ₄ , G. Agakishiev ₅ , M. M. Aggarwal ₆ , Z. Ahammed ₇ , I. Alekseev _{8,

9} , D. M. Anderson ₁₀ , A. Aparin ₅ , E. C. Aschenauer ₁ , M. U. Ashraf ₁₁ , F. G. Atetalla ₁₂ , A. Attri ₆ , G. S. Averichev ₅ , V. Bairathi ₁₃ , K. Barish ₁₄ , A. Behera ₁₅ , R. Bellwied ₁₆ , A. Bhasin ₁₇ , J. Bielcik ₁₈ , J. Bielcikova ₁₉ , L. C. Bland ₁ , I. G. Bordyuzhin ₈ , J. D. Brandenburg _{1,

20} , A. V. Brandin ₉ , J. Butterworth ₂₁ , H. Caines ₂₂ , M. Caldern de la Barca Snchez ₂₃ , D. Cebra ₂₃ , I. Chakaberia _{1,

12} , P. Chaloupka ₁₈ , B. K. Chan ₂₄ , F-H. Chang ₂₅ , Z. Chang ₁ , N. Chankova-Bunzarova ₅ , A. Chatterjee ₁₁ , D. Chen ₁₄ , J. H. Chen ₂₆ , X. Chen ₂₇ , Z. Chen ₂₀ , J. Cheng ₂₈ , M. Cherney ₂₉ , M. Chevalier ₁₄ , S. Choudhury ₂₆ , W. Christie ₁ , X. Chu ₁ , H. J. Crawford ₃₀ , M. Csand ₃₁ , M. Daugherity ₃₂ , T. G. Dedovich ₅ , I. M. Deppner ₃₃ , A. A. Derevschikov ₃₄ , L. Didenko ₁ , X. Dong ₃₅ , J. L. Drachenberg ₃₂ , J. C. Dunlop ₁ , T. Edmonds ₃₆ , N. Elsey ₃₇ , J. Engelage ₃₀ , G. Eppley ₂₁ , S. Esumi ₃₈ , O. Evdokimov ₃₉ , A. Ewigleben ₄₀ , O. Eyser ₁ , R. Fatemi ₄ , S. Fazio ₁ , P. Federic ₁₉ , J. Fedorisin ₅ , C. J. Feng ₂₅ , Y. Feng ₃₆ , P. Filip ₅ , E. Finch ₄₁ , Y. Fisyak ₁ , A. Francisco ₂₂ , L. Fulek ₂ , C. A. Gagliardi ₁₀ , T. Galatyuk ₄₂ , F. Geurts ₂₁ , A. Gibson ₄₃ , K. Gopal ₄₄ , D. Grosnick ₄₃ , W. Guryn ₁ , A. I. Hamad ₁₂ , A. Hamed ₄₅ , S. Harabasz ₄₂ , J. W. Harris ₂₂ , S. He ₁₁ , W. He ₂₆ , X. H. He ₄₆ , S. Heppelmann ₂₃ , S. Heppelmann ₄₇ , N. Herrmann ₃₃ , E. Hoffman ₁₆ , L. Holub ₁₈ , Y. Hong ₃₅ , S. Horvat ₂₂ , Y. Hu ₂₆ , H. Z. Huang ₂₄ , S. L. Huang ₁₅ , T. Huang ₂₅ , X. Huang ₂₈ , T. J. Humanic ₃ , P. Huo ₁₅ , G. Igo ₂₄ , D. Isenhower ₃₂ , W. W. Jacobs ₄₈ , C. Jena ₄₄ , A. Jentsch ₁ , Y. JI ₂₇ , J. Jia _{1,

15} , K. Jiang ₂₇ , S. Jowzaee ₃₇ , X. Ju ₂₇ , E. G. Judd ₃₀ , S. Kabana ₁₃ , M. L. Kabir ₁₄ , S. Kagamaster ₄₀ , D. Kalinkin ₄₈ , K. Kang ₂₈ , D. Kapukchyan ₁₄ , K. Kauder ₁ , H. W. Ke ₁ , D. Keane ₁₂ , A. Kechechyan ₅ , M. Kelsey ₃₅ , Y. V. Khyzhniak ₉ , D. P. Kikoła ₄₉ , C. Kim ₁₄ , B. Kimelman ₂₃ , D. Kincses ₃₁ , T. A. Kinghorn ₂₃ , I. Kisel ₅₀ , A. Kiselev ₁ , M. Kocan ₁₈ , L. Kochenda ₉ , L. K. Kosarzewski ₁₈ , L. Kramarik ₁₈ , P. Kravtsov ₉ , K. Krueger ₅₁ , N. Kulathunga Mudiyanselage ₁₆ , L. Kumar ₆ , S. Kumar ₄₆ , R. Kunnawalkam Elayavalli ₃₇ , J. H. Kwasizur ₄₈ , R. Lacey ₁₅ , S. Lan ₁₁ , J. M. Landgraf ₁ , J. Lauret ₁ , A. Lebedev ₁ , R. Lednicky ₅ , J. H. Lee ₁ , Y. H. Leung ₃₅ , C. Li ₂₇ , W. Li ₅₂ , W. Li ₂₁ , X. Li ₂₇ , Y. Li ₂₈ , Y. Liang ₁₂ , R. Licenik ₁₉ , T. Lin ₁₀ , Y. Lin ₁₁ , M. A. Lisa ₃ , F. Liu ₁₁ , H. Liu ₄₈ , P. Liu ₁₅ , P. Liu ₅₂ , T. Liu ₂₂ , X. Liu ₃ , Y. Liu ₁₀ , Z. Liu ₂₇ , T. Ljubicic ₁ , W. J. Llope ₃₇ , R. S. Longacre ₁ , N. S. Lukow ₅₃ , S. Luo ₃₉ , X. Luo ₁₁ , G. L. Ma ₅₂ , L. Ma ₂₆ , R. Ma ₁ , Y. G. Ma ₅₂ , N. Magdy ₃₉ , R. Majka ₂₂ , D. Mallick ₅₄ , S. Margetis ₁₂ , C. Markert ₅₅ , H. S. Matis ₃₅ , J. A. Mazer ₅₆ , N. G. Minaev ₃₄ , S. Mioduszewski ₁₀ , B. Mohanty ₅₄ , I. Mooney ₃₇ , Z. Moravcova ₁₈ , D. A. Morozov ₃₄ , M. Nagy ₃₁ , J. D. Nam ₅₃ , Nasim Md. ₅₇ , K. Nayak ₁₁ , D. Neff ₂₄ , J. M. Nelson ₃₀ , D. B. Nemes ₂₂ , M. Nie ₂₀ , G. Nigmatkulov ₉ , T. Niida ₃₈ , L. V. Nogach ₃₄ , T. Nonaka ₃₈ , A. S. Nunes ₁ , G. Odyniec ₃₅ , A. Ogawa ₁ , S. Oh ₃₅ , V. A. Okorokov ₉ , B. S. Page ₁ , R. Pak ₁ , A. Pandav ₅₄ , Y. Panebratsev ₅ , B. Pawlik ₅₈ , D. Pawlowska ₄₉ , H. Pei ₁₁ , C. Perkins ₃₀ , L. Pinsky ₁₆ , R. L. Pintr ₃₁ , J. Pluta ₄₉ , J. Porter ₃₅ , M. Posik ₅₃ , N. K. Pruthi ₆ , M. Przybycien ₂ , J. Putschke ₃₇ , H. Qiu ₄₆ , A. Quintero ₅₃ , S. K. Radhakrishnan ₁₂ , S. Ramachandran ₄ , R. L. Ray ₅₅ , R. Reed ₄₀ , H. G. Ritter ₃₅ , O. V. Rogachevskiy ₅ , J. L. Romero ₂₃ , L. Ruan ₁ , J. Rusnak ₁₉ , N. R. Sahoo ₂₀ , H. Sako ₃₈ , S. Salur ₅₆ , J. Sandweiss ₂₂ , S. Sato ₃₈ , W. B. Schmidke ₁ , N. Schmitz ₅₉ , B. R. Schweid ₁₅ , F. Seck ₄₂ , J. Seger ₂₉ , M. Sergeeva ₂₄ , R. Seto ₁₄ , P. Seyboth ₅₉ , N. Shah ₆₀ , E. Shahaliev ₅ , P. V. Shanmuganathan ₁ , M. Shao ₂₇ , A. I. Sheikh ₁₂ , F. Shen ₂₀ , W. Q. Shen ₅₂ , S. S. Shi ₁₁ , Q. Y. Shou ₅₂ , E. P. Sichtermann ₃₅ , R. Sikora ₂ , M. Simko ₁₉ , J. Singh ₆ , S. Singha ₄₆ , N. Smirnov ₂₂ , W. Solyst ₄₈ , P. Sorensen ₁ , H. M. Spinka ₅₁ , B. Srivastava ₃₆ , T. D. S. Stanislaus ₄₃ , M. Stefaniak ₄₉ , D. J. Stewart ₂₂ , M. Strikhanov ₉ , B. Stringfellow ₃₆ , A. A. P. Suaide ₆₁ , M. Sumbera ₁₉ , B. Summa ₄₇ , X. M. Sun ₁₁ , X. Sun ₃₉ , Y. Sun ₂₇ , Y. Sun ₆₂ , B. Surrow ₅₃ , D. N. Svirida ₈ , P. Szymanski ₄₉ , A. H. Tang ₁ , Z. Tang ₂₇ , A. Taranenko ₉ , T. Tarnowsky ₆₃ , J. H. Thomas ₃₅ , A. R. Timmins ₁₆ , D. Tlusty ₂₉ , M. Tokarev ₅ , C. A. Tomkiel ₄₀ , S. Trentalange ₂₄ , R. E. Tribble ₁₀ , P. Tribedy ₁ , S. K. Tripathy ₃₁ , O. D. Tsai ₂₄ , Z. Tu ₁ , T. Ullrich ₁ , D. G. Underwood ₅₁ , I. Upsal _{1,

20} , G. Van Buren ₁ , J. Vanek ₁₉ , A. N. Vasiliev ₃₄ , I. Vassiliev ₅₀ , F. Videbk ₁ , S. Vokal ₅ , S. A. Voloshin ₃₇ , F. Wang ₃₆ , G. Wang ₂₄ , J. S. Wang ₆₂ , P. Wang ₂₇ , Y. Wang ₁₁ , Y. Wang ₂₈ , Z. Wang ₂₀ , J. C. Webb ₁ , P. C. Weidenkaff ₃₃ , L. Wen ₂₄ , G. D. Westfall ₆₃ , H. Wieman ₃₅ , S. W. Wissink ₄₈ , R. Witt ₆₄ , Y. Wu ₁₄ , Z. G. Xiao ₂₈ , G. Xie ₃₅ , W. Xie ₃₆ , H. Xu ₆₂ , N. Xu ₃₅ , Q. H. Xu ₂₀ , Y. F. Xu ₅₂ , Y. Xu ₂₀ , Z. Xu ₁ , Z. Xu ₂₄ , C. Yang ₂₀ , Q. Yang ₂₀ , S. Yang ₁ , Y. Yang ₂₅ , Z. Yang ₁₁ , Z. Ye ₂₁ , Z. Ye ₃₉ , L. Yi ₂₀ , K. Yip ₁ , H. Zbroszczyk ₄₉ , W. Zha ₂₇ , C. Zhang ₁₅ , D. Zhang ₁₁ , S. Zhang ₂₇ , S. Zhang ₅₂ , X. P. Zhang ₂₈ , Y. Zhang ₂₇ , Y. Zhang ₁₁ , Z. J. Zhang ₂₅ , Z. Zhang ₁ , Z. Zhang ₃₉ , J. Zhao ₃₆ , C. Zhong ₅₂ , C. Zhou ₅₂ , X. Zhu ₂₈ , Z. Zhu ₂₀ , M. Zurek ₃₅ , M. Zyzak ₅₀

Affiliation

Brookhaven National Laboratory, Upton, New York 11973
AGH University of Science and Technology, FPACS, Cracow 30-059, Poland
Ohio State University, Columbus, Ohio 43210
University of Kentucky, Lexington, Kentucky 40506-0055
Joint Institute for Nuclear Research, Dubna 141 980, Russia
Panjab University, Chandigarh 160014, India
Variable Energy Cyclotron Centre, Kolkata 700064, India
Alikhanov Institute for Theoretical and Experimental Physics NRC "Kurchatov Institute", Moscow 117218, Russia
National Research Nuclear University MEPhI, Moscow 115409, Russia
Texas A&M University, College Station, Texas 77843
Central China Normal University, Wuhan, Hubei 430079
Kent State University, Kent, Ohio 44242
Instituto de Alta Investigacin, Universidad de Tarapac, Chile
University of California, Riverside, California 92521
State University of New York, Stony Brook, New York 11794
University of Houston, Houston, Texas 77204
University of Jammu, Jammu 180001, India
Czech Technical University in Prague, FNSPE, Prague 115 19, Czech Republic
Nuclear Physics Institute of the CAS, Rez 250 68, Czech Republic
Shandong University, Qingdao, Shandong 266237
Rice University, Houston, Texas 77251
Yale University, New Haven, Connecticut 06520
University of California, Davis, California 95616
University of California, Los Angeles, California 90095
National Cheng Kung University, Tainan 70101
Fudan University, Shanghai 200433
University of Science and Technology of China, Hefei, Anhui 230026
Tsinghua University, Beijing 100084
Creighton University, Omaha, Nebraska 68178
University of California, Berkeley, California 94720
ELTE Etvs Lornd University, Budapest, Hungary H-1117
Abilene Christian University, Abilene, Texas 79699
University of Heidelberg, Heidelberg 69120, Germany
NRC "Kurchatov Institute", Institute of High Energy Physics, Protvino 142281, Russia
Lawrence Berkeley National Laboratory, Berkeley, California 94720
Purdue University, West Lafayette, Indiana 47907
Wayne State University, Detroit, Michigan 48201
University of Tsukuba, Tsukuba, Ibaraki 305-8571, Japan
University of Illinois at Chicago, Chicago, Illinois 60607
Lehigh University, Bethlehem, Pennsylvania 18015
Southern Connecticut State University, New Haven, Connecticut 06515
Technische Universitt Darmstadt, Darmstadt 64289, Germany
Valparaiso University, Valparaiso, Indiana 46383
Indian Institute of Science Education and Research (IISER) Tirupati, Tirupati 517507, India
American University of Cairo, New Cairo 11835, New Cairo, Egypt
Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou, Gansu 730000
Pennsylvania State University, University Park, Pennsylvania 16802
Indiana University, Bloomington, Indiana 47408
Warsaw University of Technology, Warsaw 00-661, Poland
Frankfurt Institute for Advanced Studies FIAS, Frankfurt 60438, Germany
Argonne National Laboratory, Argonne, Illinois 60439
Shanghai Institute of Applied Physics, Chinese Academy of Sciences, Shanghai 201800
Temple University, Philadelphia, Pennsylvania 19122
National Institute of Science Education and Research, HBNI, Jatni 752050, India
University of Texas, Austin, Texas 78712
Rutgers University, Piscataway, New Jersey 08854
Indian Institute of Science Education and Research (IISER), Berhampur 760010 , India
Institute of Nuclear Physics PAN, Cracow 31-342, Poland
Max-Planck-Institut fr Physik, Munich 80805, Germany
Indian Institute Technology, Patna, Bihar 801106, India
Universidade de So Paulo, So Paulo, Brazil 05314-970
Huzhou University, Huzhou, Zhejiang 313000
Michigan State University, East Lansing, Michigan 48824
United States Naval Academy, Annapolis, Maryland 21402

High transverse momentum (pT) particle production is suppressed due to parton (jet) energy loss in the hot dense medium created in relativistic heavy-ion collisions. Redistribution of energy at low-to-modest pT has been elusive to measure because of large anisotropic backgrounds. We report a novel 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 sNN = 200 GeV with the STAR experiment. The correlation shapes, for trigger particle pT > 3 GeV/c and various associated particle pT ranges within 0.5 < pT < 10 GeV/c, are consistent with Gaussians and their widths are found to increase with centrality. The results indicate jet broadening in the medium created in central heavy-ion collisions.

中文翻译：

在 s _NN = 200 GeV时通过 Au+Au 碰撞中流动的自减法测量远离侧展宽

由于在相对论重离子碰撞中产生的热致密介质中的部分子（射流）能量损失，高横向动量 (pT) 粒子的产生受到抑制。由于大的各向异性背景，在低到中等 pT 下的能量重新分布难以测量。我们报告了一种新的数据驱动的背景评估和减法方法，利用远离侧的伪快速间隙，通过 STAR 实验测量 sNN = 200 GeV 下 Au+Au 碰撞中的喷射状相关形状。对于触发粒子 pT > 3 GeV/c 和 0.5 < pT < 10 GeV/c 内的各种相关粒子 pT 范围，相关形状与高斯一致，并且发现它们的宽度随着中心性而增加。结果表明中心重离子碰撞产生的介质中的射流展宽。

更新日期：2020-09-10

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