Net-proton number fluctuations and the Quantum Chromodynamics critical point

J. Adam, L. Adamczyk, Jordon Rowe Adams,J. K. Adkins,G. Agakishiev, M. M. Aggarwal, Z. Ahammed,I. Alekseev, D. M. Anderson,A. Aparin,E. C. Aschenauer,Muhammad Usman Ashraf, F. G. Atetalla, A. Attri,G. S. Averichev,V. Bairathi,K. N. Barish,A. Behera,R. Bellwied,A. Bhasin, J. Bielčík, J. Bielčíková,L. C. Bland,I. G. Bordyuzhin,J. D. Brandenburg,A. V. Brandin,J. Butterworth,H. Caines,M. Calderón De La Barca Sánchez, D. Cebra,I. Chakaberia,P. Chaloupka, B. K. Chan,F-H. Chang,Z. Chang, N. Chankova-Bunzarova,A. Chatterjee, D. Chen, J. H. Chen,X. Chen, Z. Chen,J. Cheng,M. Cherney,M. Chevalier,S. Choudhury,W. Christie,H. J. Crawford,M. Csanád, M. Daugherity,T. G. Dedovich, I. M. Deppner,A. A. Derevschikov,L. Didenko, X. Dong,J. L. Drachenberg,J. C. Dunlop, T. Edmonds, N. Elsey,J. Engelage, G. Eppley,R. Esha,S. Esumi, O. Evdokimov, A. Ewigleben, O. Eyser,R. Fatemi,S. Fazio,P. Federic, J. Fedorišin, C. Feng, Yanghe Feng,P. Filip,E. Finch, Y. Fisyak,A. Francisco,Ł. Fulek,C. A. Gagliardi,T. Galatyuk,F. J. M. Geurts,A. Gibson,K. Gopal, D. Grosnick, W. Guryn, A. I. Hamad,A. Hamed,J. W. Harris,Shue He,Wei He, Xiao-Rong He, S. Heppelmann,N. Herrmann,Eric A. Hoffman, L. Holub, Yifan Hong,Szabolcs Horvát, Y. Hu,H. Z. Huang, S. Huang,T. Huang, X. Y. Huang,T. J. Humanic,P. Huo, G. Igo, D. Isenhower,W. W. Jacobs,C. Jena,A. Jentsch,Y. Ji, Jinbiao Jia,K. Jiang, S. Jowzaee,X. Ju,E. G. Judd, S. Kabana, M. L. Kabir,S. Kagamaster,D. Kalinkin,Kyungsik Kang,D. Kapukchyan, K. Kauder,H. W. Ke,D. Keane,A. Kechechyan,Matthew Kelsey,Y. V. Khyzhniak,D. P. Kikoła,C. Kim,B. Kimelman,D. Kincses,T. A. Kinghorn, I. Kisel, Alexander V. Kiselev,A. Kisiel,M. Kocan, L. Kochenda,L. K. Kosarzewski, L. Kramárik,П. Кравцов, K. Krueger,N. Kulathunga Mudiyanselage,L. Kumar,Raghav Kunnawalkam Elayavalli,J. H. Kwasizur, R. Lacey,S. Lan,J. M. Landgraf, J. Lauret,A. Lebedev, R. Lednický,J. H. Lee,Y. H. Leung,C. Li,W. Li,X. Li,Y. Li,Y. Liang, R. Licenik, T. H. Lin, Yong-Hui Lin,M. A. Lisa, F. Liu, H. Liu,P. Liu,T. Liu,X. Liu, Y. Liu,Z. Liu, T. Ljubičić,W. J. Llope,R. S. Longacre, N. S. Lukow,Shu Luo, Xiang-Qian Luo, G. L.,L. Ma, R. Q. Ma, Y. G.,N. Magdy, R. Majka, D. Mallick,S. Margetis,C. Markert,H. S. Matis,J. Mazer, N. G. Minaev,S. Mioduszewski,B. Mohanty, I. Mooney, Z. Moravcová,D. A. Morozov,M. I. Nagy,J. D. Nam, Md. Nasim,K. Nayak,D. Neff,J. M. Nelson,D. B. Nemes,M. Nie, G. Nigmatkulov,T. Niida,L. V. Nogach, T. Nonaka, G. Odyniec,A. Ogawa, S. H. Oh,V. Okorokov,B. S. Page, R. Pak, A. Pandav,Y. Panebratsev,B. Pawlik, D. Pawłowska,H. Pei,C. Perkins, L. Pinsky,R. L. Pintér, J. Pluta,J. Porter, M. Posik,N. K. Pruthi, M. Przybycień, J. Putschke,H. Qiu,A. Quintero,S. K. Radhakrishnan,S. Ramachandran, R. L. Ray,R. Reed, H. G. Ritter,J. B. Roberts,O. V. Rogachevskiy,J. L. Romero,L. Ruan,J. Rusňák,N. Sahoo,H. Sako, S. Salur,J. Sandweiss, Susumu Sato,W. B. Schmidke,N. Schmitz,B. R. Schweid,F. Seck, J. Seger, M. Sergeeva,R. Seto, P. Seyboth,N. Shah, E. Shahaliev,P. V. Shanmuganathan,M. Shao, F. Shen,W. Q. Shen,S. S. Shi, Q. Shou,E. P. Sichtermann,R. Sikora,M. Simko,Janardan P. Singh,S. Singha,N. Smirnov,W. Solyst,P. Sorensen,H. M. Spinka,B. Srivastava,T. D. S. Stanislaus, M. Stefaniak,D. J. Stewart,M. Strikhanov,B. Stringfellow, A. A. P. Suaide, M. Šumbera,B. Summa,X. M. Sun, Yifeng Sun, B. Surrow,D. N. Svirida, P. Szymański,A. H. Tang,Z. Tang,A. Taranenko,T. Tarnowsky, J. H. Thomas,A. R. Timmins,D. Tlusty,M. Tokarev,C. A. Tomkiel,Stephen Trentalange,R. E. Tribble,P. Tribedy,S. K. Tripathy,O. D. Tsai,Z. Tu,T. Ullrich,D. G. Underwood, I. Upsal,G. Van Buren,J. Vaněk,A. N. Vasiliev, I. Vassiliev,F. Videbæk,S. Vokál,S. A. Voloshin,F. Wang,G. Wang,J. S. Wang,P. Wang,Y. Wang, Z. Wang, J. C. Webb, P. C. Weidenkaff, L. Wen,G. D. Westfall, H. Wieman,S. W. Wissink, R. Witt,Yan Wu,Zhiguang Xiao,Gang Xie, W. Xie,H. Xu,N. Xu,Q. H. Xu,Y. Xu,Y. T. Xu,Z. Xu, Chubin Yang, Qiaoli Yang,S. Yang,Yi Yang,Zhung-le Yang, Z. Ye, L. Yi,K. Yip, H. Zbroszczyk, W. Zha,D. Zhang,S. Zhang,X. P. Zhang, Y. Zhang,Z. J. Zhang,Z. Zhang, Jiaxing Zhao,C. Zhong,Chao Zhou,X. Zhu, Zheng-Kun Zhu,M. Żurek, M. Zyzak

user-618b9067e554220b8f259598（2020）

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摘要

Observations from collisions of heavy-ion at relativistic energies have established the formation of a new phase of matter, Quark Gluon Plasma (QGP), a deconfined state of quarks and gluons in a specific region of the temperature versus baryonic chemical potential phase diagram of strong interactions. A program to study the features of the phase diagram, such as a possible critical point, by varying the collision energy ($\sqrt{s_{\rm NN}}$), is performed at the Relativistic Heavy-Ion Collider (RHIC) facility. Non-monotonic variation with $\sqrt{s_{\rm NN}}$ of moments of the net-baryon number distribution, related to the correlation length and the susceptibilities of the system, is suggested as a signature for a critical point. We report the first evidence of a non-monotonic variation in kurtosis $\times$ variance of the net-proton number (proxy for net-baryon number) distribution as a function of $\sqrt{s_{\rm NN}}$ with 3.1$\sigma$ significance, for head-on (central) gold-on-gold (Au+Au) collisions measured using the STAR detector at RHIC. Non-central Au+Au collisions and models of heavy-ion collisions without a critical point show a monotonic variation as a function of $\sqrt{s_{\rm NN}}$.

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关键词

quantum chromodynamics,fluctuations,critical point,net-proton

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