Measurement of higher cumulants of net-charge multiplicity distributions in Au$+$Au collisions at $\sqrt{s_{_{NN}}}=7.7-200$ GeV

A Adare,Serguei Afanasiev, C Aidala,N N Ajitanand,Y Akiba,R Akimoto,H Albataineh,John H Alexander,H Altaani, A Angerami,K Aoki,N Apadula,Y Aramaki, Haruhiko Asano,E C Aschenauer,E T Atomssa, R Averbeck, T C Awes,B Azmoun,V Babintsev,M Bai,G Baksay, L Baksay,B Bannier,K N Barish,B Bassalleck,Austin Basye,S Bathe,V Baublis,C Baumann,S Baumgart,A Bazilevsky,S Belikov,R Belmont,R Bennett,A Berdnikov,Y Berdnikov,A A Bickley,Daniel A Black,D Blau,J S Bok,K Boyle,M L Brooks,J Bryslawskyj,H Buesching,V Bumazhnov,G Bunce,S Butsyk,C M Camacho,S Campbell, P Castera,C H Chen,C Y Chi, M Chiu,I J Choi,Jung Bum Choi, Seungman Choi, R K Choudhury,P Christiansen,T Chujo,P Chung,O Chvala,V Cianciolo,Zvi Hirsh Citron,B A Cole,M Connors,P Constantin, N J Cronin, N Crossette,M Csanad, T Csorgő,T Dahms,S Dairaku,I Danchev,Kuheli Das, Anupam Datta,M Daugherity,G David,K Dehmelt,A Denisov,A Deshpande,E J Desmond,K V Dharmawardane,O Dietzsch,Ling Ding,A Dion,Jae Hyuk Do,M Donadelli,L Dorazio,O Drapier,A Drees,K A Drees,J M Durham,A Durum, D Dutta,Steven W Edwards,Y V Efremenko,F Ellinghaus,T Engelmore,A Enokizono,H Enyo, S Esumi,K O Eyser,B Fadem,D E Fields,M Finger,F Fleuret,S L Fokin,Z Fraenkel,J E Frantz,A Franz,A D Frawley,Kosaku Fujiwara,Y Fukao,T Fusayasu, K Gainey,C Gal,P Garg, A Garishvili,I Garishvili,Frank J Giordano,A Glenn,Haimei Gong, Xuchun Gong,M Gonin,Yoichi Goto,R Granier De Cassagnac,N Grau,S V Greene,M Grosse Perdekamp,Yusu Gu,T Gunji,Lei Guo, H A Gustafsson,T Hachiya,J S Haggerty,K I Hahn, H Hamagaki,J Hamblen,Runping Han,J Hanks,E P Hartouni, Ken Hashimoto,E Haslum,R S Hayano, Shinichiro Hayashi,X He,M Heffner,T K Hemmick,T Hester, J C Hill, M Hohlmann,R S Hollis,W Holzmann,K Homma,B Hong,T Horaguchi,Yoshiaki Hori,D Hornback,S Huang, Takeo Ichihara,R Ichimiya,J Ide,H Iinuma,Y Ikeda,K Imai,Y Imazu,J Imrek,Masaaki Inaba,A Iordanova,D Isenhower,M Ishihara, A Isinhue,T Isobe,M Issah,A Isupov,D Ivanishchev,B V Jacak, M Javani,Jizeng Jia,X Jiang,Jian Jin,B M Johnson, K S Joo,D Jouan,D S Jumper,F Kajihara,S Kametani,N Kamihara,J Kamin,S Kaneti,B H Kang,J S Kang,J S Kapustinsky,K Karatsu,M Kasai,D Kawall,Masatoshi Kawashima,A V Kazantsev,T Kempel,J A Key,P K Khandai,A Khanzadeev,K M Kijima,B I Kim,C Kim, D H Kim,Eun Jin Kim,Hyun Jung Kim,K B Kim, S H Kim,Y J Kim, E Kinney,K Kiriluk,A Kiss,E Kistenev,J Klatsky,D Kleinjan,P Kline,L Kochenda,Yasuhiro Komatsu,B Komkov,M Konno,Jan Koster,D Kotchetkov,D Kotov, A Kozlov, A Kral,A Kravitz, F Krizek,G J Kunde,K Kurita,M Kurosawa,Y Kwon,G S Kyle,R Lacey,Yue Shi Lai,J G Lajoie, A Lebedev,B Lee, D M Lee, Jaeyoung Lee,Kyung Soo Lee,S H Lee,M J Leitch, M A L Leite, M Leitgab,E Leitner,B Lenzi,Basil S Lewis,Xiaofang Li,P Liebing,S H Lim, L A Linden Levy,T Liska,A Litvinenko, H Liu,M X Liu,B Love,R Luechtenborg, David K Lynch, C Maguire,Y I Makdisi,M Makek,Alexander Malakhov,M D Malik, A Manion,V I Manko,E Mannel,Yong Mao,Takuro Maruyama,H Masui, S Masumoto,F Matathias,M Mccumber,P L Mcgaughey,D Mcglinchey,C Mckinney,N Means,A Meles,M Mendoza,B Meredith, Y Miake,T Mibe, J Midori, A C Mignerey,P Mikes,Koji Miki,A Milov, D K Mishra, M K Mishra,J T Mitchell,Y Miyachi,S Miyasaka, A K Mohanty,S R P Mohapatra,Hee Jung Moon,Y Morino,A Morreale,D P Morrison,Michael A Moskowitz, S Motschwiller,T V Moukhanova,Toshio Murakami,J Murata, A Mwai,T Nagae,S Nagamiya,J L Nagle,M Naglis,M I Nagy,I Nakagawa,Y Nakamiya,K Nakamura,T Nakamura, Kiyoko Nakano,C Nattrass, A Nederlof,P K Netrakanti,J Newby,M Nguyen,M Nihashi,T Niida,R Nouicer,N Novitzky, A Nukariya,A S Nyanin,Hiroshi Obayashi,E Obrien,S Oda,C A Ogilvie,Masaaki Oka,Kiyoshi Okada,Y Onuki, A Oskarsson,Mamoru Ouchida,K Ozawa,R Pak,V Pantuev, V Papavassiliou,B H Park,I H Park, Jaechul Park, S K Park,W J Park,S F Pate,L Patel,H Pei, J C Peng,H Pereira,Dennis Perepelitsa,V Peresedov,D Yu Peressounko,R Petti,C Pinkenburg,R P Pisani,M Proissl,M L Purschke,A K Purwar,H Qu,J Rak,A Rakotozafindrabe,I Ravinovich,K F Read,K Reygers, David M Reynolds,V Riabov,Y Riabov,E Richardson, N Riveli,D Roach,G Roche,S D Rolnick,Margherita Rosati,Craig A Rosen,S S E Rosendahl, P Rosnet, P A Rukoyatkin, P Ružicka,Min Sang Ryu,B Sahlmueller,Norio Saito,T Sakaguchi, Keiichi Sakashita,H Sako,V Samsonov,Masako Sano,S Sano,M Sarsour,Shusei Sato, Takahiro Sato,S Sawada,K Sedgwick,J Seele,R Seidl,A Yu Semenov,A Sen, R Seto, P Sett,Deepak Sharma,I Shein, T A Shibata,K Shigaki,M Shimomura,Kenichi Shoji,Prashant Shukla,A Sickles,C L Silva,D Silvermyr,C Silvestre,K S Sim,B K Singh,C P Singh, Varsha Singh, M Skolnik,M Slunecka, S Solano,R A Soltz,W E Sondheim,S P Sorensen,I V Sourikova,N A Sparks,P W Stankus,P Steinberg, E Stenlund,M Stepanov,A Ster,S P Stoll,T Sugitate, A V Sukhanov,Jian Sun,J Sziklai,E M Takagui,Akira Takahara,A Taketani,R Tanabe,Yoshiya Tanaka,Subhash C Taneja,K Tanida,M J Tannenbaum,S Tarafdar,A Taranenko,P Tarjan,E Tennant,H Themann,T L Thomas,T Todoroki,M Togawa,A Toia,L Tomasek,M Tomasek,H Torii,R S Towell,I Tserruya,Y Tsuchimoto,Takashi Tsuji,C Vale,H Valle,H W Van Hecke,Marton Vargyas,E Vazquezzambrano,A Veicht, J Velkovska,R Vertesi, A Vinogradov,M Virius, B Voas,A Vossen, V Vrba,E Vznuzdaev,X R Wang,Daisuke Watanabe, Kenji Watanabe,Y Watanabe, Fuzheng Wei,R Wei, J P Wessels, S P Whitaker,Sebastian White,D Winter,S Wolin,J P Wood,C L Woody,R M Wright,M Wysocki,Bin Xia,Wei Xie, Y Yamaguchi,K Yamaura,R Yang,A Yanovich,J Ying,S Yokkaichi,Z You,G R Young,I Younus,I E Yushmanov,W A Zajc,A Zelenski,Cheng Zhang,S Zhou,L Zolin

PHYSICAL REVIEW C（2016）

引用 89|浏览352

暂无评分

摘要

We report the measurement of cumulants (C-n,n = 1, ..., 4) of the net-charge distributions measured within pseudorapidity (vertical bar eta vertical bar < 0.35) in Au + Au collisions at root s(NN) = 7.7-200 GeV with the PHENIX experiment at the Relativistic Heavy Ion Collider. The ratios of cumulants (e.g., C-1/C-2, C-3/C-1) of the net-charge distributions, which can be related to volume independent susceptibility ratios, are studied as a function of centrality and energy. These quantities are important to understand the quantum-chromodynamics phase diagram and possible existence of a critical end point. The measured values are very well described by expectation from negative binomial distributions. We do not observe any nonmonotonic behavior in the ratios of the cumulants as a function of collision energy. The measured values of C-1/C-2 and C-3/C-1 can be directly compared to lattice quantum-chromodynamics calculations and thus allow extraction of both the chemical freeze-out temperature and the baryon chemical potential at each center-of-mass energy. The extracted baryon chemical potentials are in excellent agreement with a thermal-statistical analysis model.

查看译文

AI 理解论文

溯源树

样例

生成溯源树，研究论文发展脉络

Chat Paper

正在生成论文摘要