Results 31 to 40 of about 120,982 (202)
Charge-dependent pair correlations relative to a third particle in p + Au and d + Au collisions at RHIC
Physics Letters B, 2019 Quark interactions with topological gluon configurations can induce chirality imbalance and local parity violation in quantum chromodynamics. This can lead to electric charge separation along the strong magnetic field in relativistic heavy-ion collisions J. Adam, L. Adamczyk, J.R. Adams, J.K. Adkins, G. Agakishiev, M.M. Aggarwal, Z. Ahammed, I. Alekseev, D.M. Anderson, R. Aoyama, A. Aparin, D. Arkhipkin, E.C. Aschenauer, M.U. Ashraf, F. Atetalla, A. Attri, G.S. Averichev, V. Bairathi, K. Barish, A.J. Bassill, A. Behera, R. Bellwied, A. Bhasin, A.K. Bhati, J. Bielcik, J. Bielcikova, L.C. Bland, I.G. Bordyuzhin, J.D. Brandenburg, A.V. Brandin, J. Bryslawskyj, I. Bunzarov, 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, S. Chattopadhyay, J.H. Chen, X. Chen, J. Cheng, M. Cherney, W. Christie, H.J. Crawford, M. Csanád, S. Das, T.G. Dedovich, I.M. Deppner, A.A. Derevschikov, L. Didenko, C. Dilks, X. Dong, J.L. Drachenberg, J.C. Dunlop, T. Edmonds, N. Elsey, J. Engelage, G. Eppley, R. Esha, S. Esumi, O. Evdokimov, J. Ewigleben, O. Eyser, R. Fatemi, S. Fazio, P. Federic, J. Fedorisin, Y. Feng, P. Filip, E. Finch, Y. Fisyak, L. Fulek, C.A. Gagliardi, T. Galatyuk, F. Geurts, A. Gibson, K. Gopal, D. Grosnick, A. Gupta, W. Guryn, A.I. Hamad, A. Hamed, J.W. Harris, L. He, S. Heppelmann, S. Heppelmann, N. Herrmann, L. Holub, Y. Hong, S. Horvat, B. Huang, H.Z. Huang, S.L. Huang, T. Huang, X. Huang, T.J. Humanic, P. Huo, G. Igo, W.W. Jacobs, C. Jena, A. Jentsch, Y. Ji, J. Jia, K. Jiang, S. Jowzaee, X. Ju, E.G. Judd, S. Kabana, S. Kagamaster, D. Kalinkin, K. Kang, D. Kapukchyan, K. Kauder, H.W. Ke, D. Keane, A. Kechechyan, M. Kelsey, Y.V. Khyzhniak, D.P. Kikoła, C. Kim, T.A. Kinghorn, I. Kisel, A. Kisiel, M. Kocan, L. Kochenda, L.K. Kosarzewski, L. Kramarik, P. Kravtsov, K. Krueger, N. Kulathunga Mudiyanselage, L. Kumar, R. Kunnawalkam Elayavalli, J.H. Kwasizur, R. Lacey, J.M. Landgraf, J. Lauret, A. Lebedev, R. Lednicky, J.H. Lee, C. Li, W. Li, W. Li, X. Li, Y. Li, Y. Liang, R. Licenik, T. Lin, A. Lipiec, M.A. Lisa, F. Liu, H. Liu, P. Liu, P. Liu, T. Liu, X. Liu, Y. Liu, Z. Liu, T. Ljubicic, W.J. Llope, M. Lomnitz, R.S. Longacre, S. Luo, X. Luo, G.L. Ma, L. Ma, R. Ma, Y.G. Ma, N. Magdy, R. Majka, D. Mallick, S. Margetis, C. Markert, H.S. Matis, O. Matonoha, J.A. Mazer, K. Meehan, J.C. Mei, N.G. Minaev, S. Mioduszewski, D. Mishra, B. Mohanty, M.M. Mondal, I. Mooney, Z. Moravcova, D.A. Morozov, Md. Nasim, K. Nayak, J.M. Nelson, D.B. Nemes, M. Nie, G. Nigmatkulov, T. Niida, L.V. Nogach, T. Nonaka, G. Odyniec, A. Ogawa, K. Oh, S. Oh, V.A. Okorokov, B.S. Page, R. Pak, Y. Panebratsev, B. Pawlik, D. Pawlowska, H. Pei, C. Perkins, R.L. Pintér, J. Pluta, J. Porter, M. Posik, N.K. Pruthi, M. Przybycien, J. Putschke, 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. Rusnak, O. Rusnakova, N.R. Sahoo, P.K. Sahu, S. Salur, J. Sandweiss, J. Schambach, 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.Y. Shou, E.P. Sichtermann, S. Siejka, R. Sikora, M. Simko, J. Singh, S. Singha, D. Smirnov, 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, T. Sugiura, M. Sumbera, B. Summa, X.M. Sun, Y. Sun, Y. Sun, B. Surrow, D.N. Svirida, P. Szymanski, A.H. Tang, Z. Tang, A. Taranenko, T. Tarnowsky, J.H. Thomas, A.R. Timmins, D. Tlusty, T. Todoroki, M. Tokarev, C.A. Tomkiel, S. Trentalange, R.E. Tribble, P. Tribedy, S.K. Tripathy, O.D. Tsai, B. Tu, Z. Tu, T. Ullrich, D.G. Underwood, I. Upsal, G. Van Buren, J. Vanek, A.N. Vasiliev, I. Vassiliev, F. Videbæk, S. Vokal, F. Wang, G. Wang, P. Wang, Y. Wang, Y. Wang, J.C. Webb, L. Wen, G.D. Westfall, H. Wieman, S.W. Wissink, R. Witt, Y. Wu, Z.G. Xiao, G. Xie, W. Xie, H. Xu, N. Xu, Q.H. Xu, Y.F. Xu, Z. Xu, C. Yang, Q. Yang, S. Yang, Y. Yang, Z. Yang, Z. Ye, Z. Ye, L. Yi, K. Yip, I.-K. Yoo, H. Zbroszczyk, W. Zha, D. Zhang, L. Zhang, S. Zhang, S. Zhang, X.P. Zhang, Y. Zhang, Z. Zhang, J. Zhao, C. Zhong, C. Zhou, X. Zhu, Z. Zhu, M. Zurek, M. Zyzak +350 moredoaj +1 more sourcePhoton-Photon and Photon-Hadron Interactions at Relativistic Heavy Ion
Colliders
, 1998 In central collisions at relativistic heavy ion colliders like the
Relativistic Heavy Ion Collider RHIC/Brookhaven and the Large Hadron Collider
LHC (in its heavy ion mode) at CERN/Geneva, one aims at detecting a new form of
hadronic matter --- the Quark Alscher, Baltz, Baur, Baur, Baur, Baur, Baur, Baur, Baur, Baur, Baur, Baur, Berger, Bertulani, Bjorken, Brechtmann, Brechtmann, Budnev, Cahn, Choudhury, D. Trautmann, Drees, Drees, Eggert, G. Baur, Godang, Hencken, Hencken, Hencken, Jackson, K. Hencken, Klein, Klein, Klein, Klein, Kolanoski, Krauss, Moshammer, Müller, Norbury, Nystrand, Ohnemus, Papageorgiu, Price, Primakoff, Shamov, Vannucci, Vidović, Winther +48 morecore +1 more sourceHydrodynamics and Flow
, 2008 In this lecture note, we present several topics on relativistic hydrodynamics
and its application to relativistic heavy ion collisions. In the first part we
give a brief introduction to relativistic hydrodynamics in the context of heavy
ion collisions ...A. Hosoya, A. Muronga, A. Muronga, A. Muronga, A. Muronga, A. Muronga, A. Nakamura, A.M. Poskanzer, B. Alver, B. Zhang, B.B. Back, B.B. Back, B.B. Back, C. Alt, C. Amsler, C. Cattaneo, C. Eckart, C. Iso, C. Nonaka, C. Nonaka, D. Kharzeev, D. Kharzeev, D. Kharzeev, D. Teaney, D.G. d’Enterria, D.H. Rischke, E. Schnedermann, F. Becattini, F. Becattini, F. Cooper, F. Grassi, F. Karsch, F. Karsch, H. Bebie, H. Heiselberg, H. Song, H. Sorge, H.J. Drescher, I. Müller, I. Müller, J. Adams, J.D. Bjorken, J.P. Blaizot, J.Y. Ollitrault, J.Y. Ollitrault, K. Dusling, K.H. Ackermann, L.D. Landau, L.P. Csernai, M. Cheng, M. Gyulassy, M. Mizutani, M. Namiki, N. Arbex, O. Barannikova [STAR Collaboration], P. Danielewicz, P. Huovinen, P. Huovinen, P. Kovtun, P. Romatschke, P. Romatschke, P.F. Kolb, P.F. Kolb, P.F. Kolb, P.J. Siemens, P.V. Ruuskanen, R. Andrade, R. Baier, R. Baier, R. Baier, S.A. Bass, S.A. Voloshin, S.J. Sanders, S.S. Adler, S.S. Adler, T. Hirano, T. Hirano, T. Hirano, T. Hirano, T. Hirano, T. Hirano, T. Hirano, T. Hirano, T. Koide, T. Matsui, T. Peitzmann, U.W. Heinz, V. Koch, W. Broniowski, W. Israel, W. Israel, W.A. Hiscock, X.I. Zhu, Y. Hama, Z. Xu, Z. Xu, Z. Xu +96 morecore +1 more sourceRelativistic Heavy-Ion-Atom Collisions [PDF]
, 1986 Publisher Summary This chapter reviews the atomic collisions of very heavy ions at relativistic velocities. The use of relativistic heavy ions permits several experimental simplifications. For example, the main source of error in x-ray-producing cross-section measurements at low velocities is the beam intensity normalization, determined either by ...Anholt, R., Gould, H.openaire +2 more sourcesRecent STAR heavy-ion results
EPJ Web of Conferences, 2017 The recent STAR heavy-ion results obtained in the first phase of the RHIC Beam Energy Scan program are presented. The measurements of particle spectra have been performed over a wide range of collision energy √sNN=7.7-200 GeV, centrality and transverse ...Tokarev Mikhaildoaj +1 more source
