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The JETSCAPE framework
J. Putschke,A. Angerami,T. Luo,J. Coleman,C. Sirimanna,G. Vujanovic,Shanshan Cao,Charles Gale,Steffen A. Bass,Amit Kumar,Peter Martin Jacobs,Z. Yang,S. Jeon,Ebrahim Khalaj,K. Kauder,L. Cunqueiro,Y. Xu,M. Kordell,Barbara Jacak,Gunther Roland,Yasuki Tachibana,Rainer J. Fries,Chun Shen,R. A. Soltz,T. Dai,D. Everett,Lipei Du,L. Schwiebert,Long-Gang Pang,Ulrich Heinz,D. Pablos,W. Fan,M. McNelis,Jean-François Paquet,Abhijit Majumder,Hannah Elfner,C. Park,Christine Nattrass,J. Mulligan,Dmytro Oliinychenko,Weiyao Ke,Robert L. Wolpert,BjÜrn Schenke,Xin-Nian Wang,Yayun He +44 more
TL;DR: This article outline the algorithmic design of the JETSCAPE framework, define the interfaces and describe the default modules required to carry out full simulations of heavy-ion collisions within this package, and describes the physics output for both $p$-$p$ and $A$-$A$ collisions from the default distribution.
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Abstract:Â The JETSCAPE simulation framework is an overarching computational envelope for developing complete event generators for heavy-ion collisions. It allows for modular incorporation of a wide variety of existing and future software that simulates different aspects of a heavy-ion collision. The default JETSCAPE package contains both the framework, and an entire set of indigenous and third party routines that can be used to directly compare with experimental data. In this article, we outline the algorithmic design of the JETSCAPE framework, define the interfaces and describe the default modules required to carry out full simulations of heavy-ion collisions within this package. We begin with a description of the various physics elements required to simulate an entire event in a heavy-ion collision, and distribute these within a flowchart representing the event generator and statistical routines for comparison with data. This is followed by a description of the abstract class structure, with associated members and functions required for this flowchart to work. We then define the interface that will be required for external users of JETSCAPE to incorporate their code within this framework and to modify existing elements within the default distribution. We conclude with a discussion of some of the physics output for both $p$-$p$ and $A$-$A$ collisions from the default distribution, and an outlook towards future releases. In the appendix, we discuss various architectures on which this code can be run and outline our benchmarks on similar hardware.
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References
The Large N limit of superconformal field theories and supergravity
TL;DR: In this article, it was shown that the large-N limits of certain conformal field theories in various dimensions include in their Hilbert space a sector describing supergravityon the product of anti-de Sitter spacetimes, spheres, and other compact manifolds.
17.7K
The Large N Limit of Superconformal Field Theories and Supergravity
TL;DR: In this paper, it was shown that the super-conformal field theory on the brane decouples from the bulk of the field theory in a low energy limit.
15.9K
A Brief Introduction to PYTHIA 8.1
TL;DR: PYTHIA 8 represents a complete rewrite in C++, and does not yet in every respect replace the old code, but does contain some new physics aspects that should make it an attractive option especially for LHC physics studies.
6.9K
Asymptotic Freedom in Parton Language
Guido Altarelli,Giorgio Parisi +1 more
TL;DR: In this article, the main body of predictions of the theory for deep-inleastic scattering on either unpolarized or polarized targets is re-obtained by a method which only makes use of the simplest tree diagrams and is entirely phrased in parton language with no reference to the conventional operator formalism.
6.1K
Experimental and theoretical challenges in the search for the quark-gluon plasma: The STAR Collaboration's critical assessment of the evidence from RHIC collisions
Joseph Adams,Madan M. Aggarwal,Zubayer Ahammed,J. Amonett,B. D. Anderson,D. Arkhipkin,G. S. Averichev,S. K. Badyal,Y. Bai,J. Balewski,O. Barannikova,Lee Stuart Barnby,J. Baudot,S. Bekele,V. V. Belaga,A. Bellingeri-Laurikainen,R. Bellwied,J. Berger,B. I. Bezverkhny,S. Bharadwaj,Anju Bhasin,A. K. Bhati,V. S. Bhatia,H. Bichsel,Jaroslav Bielcik,Jana Bielcikova,A. Billmeier,L. C. Bland,C. O. Blyth,B. E. Bonner,M. Botje,A. Boucham,J. Bouchet,A. V. Brandin,A. Bravar,M. Bystersky,R. V. Cadman,Xu Cai,H. Caines,M. Calderon De La Barca Sanchez,J. Castillo,O. Catu,D. Cebra,Z. Chajecki,P. Chaloupka,Subhasis Chattopadhyay,Hao-Ze Chen,Yu Chen,Jianping Cheng,M. Cherney,A. Chikanian,W. Christie,J. P. Coffin,Thomas Michael Cormier,J. G. Cramer,Hank Crawford,Debasish Das,Souvik Das,M. M. de Moura,T. G. Dedovich,A. A. Derevschikov,L. Didenko,T. Dietel,S. M. Dogra,W. J. Dong,X. Dong,J. E. Draper,F. Du,A. K. Dubey,V. B. Dunin,J. C. Dunlop,M. R. Dutta Mazumdar,V. Eckardt,W. R. Edwards,L. G. Efimov,V. Emelianov,J. Engelage,G. Eppley,B. Erazmus,M. Estienne,P. Fachini,J. Faivre,R. Fatemi,J. Fedorisin,K. Filimonov,P. Filip,E. Finch,V. Fine,Y. Fisyak,J. Fu,C. A. Gagliardi,L. Gaillard,J. Gans,M. S. Ganti,Frank Jm Geurts,V. Ghazikhanian,Premomoy Ghosh,J. E. Gonzalez,H. Gos,O. A. Grachov,O. G. Grebenyuk,D. Grosnick,S. M. Guertin,Y. Guo,A. Gupta,T. D. Gutierrez,T. J. Hallman,A. Hamed,D. Hardtke,J. W. Harris,M. Heinz,T. W. Henry,S. Hepplemann,Boris Hippolyte,A. Hirsch,E. Hjort,Gerald W Hoffmann,H. Z. Huang,Shengli Huang,E. W. Hughes,Thomas Humanic,G. Igo,A. Ishihara,Peter Martin Jacobs,William Jacobs,M. Jedynak,H. Jiang,P. G. Jones,E. G. Judd,S. Kabana,K. Kang,M. Kaplan,D. Keane,A. Kechechyan,V. Y. Khodyrev,J. Kiryluk,Adam Ryszard Kisiel,E. M. Kislov,J. Klay,S. R. Klein,D. D. Koetke,Thorsten Sven Kollegger,M. Kopytine,L. Kotchenda,M. Kramer,P. Kravtsov,V. I. Kravtsov,K. Krueger,Christian Claude Kuhn,A. I. Kulikov,A. Kumar,R. K. Kutuev,A. A. Kuznetsov,M. A.C. Lamont,J. M. Landgraf,S. Lange,F. Laue,J. Lauret,A. Lebedev,R. Lednicky,S. Lehocka,M. J. LeVine,C-Q. Li,Q. Li,Yan Li,G. Lin,S. J. Lindenbaum,M. A. Lisa,F. Liu,Hengchang Liu,L. Liu,Q. J. Liu,Z. Liu,T. Ljubicic,W. J. Llope,H. Long,R. S. Longacre,M. Lopez-Noriega,W. A. Love,Y. Lu,T. W. Ludlam,David Lynn,Guo-Liang Ma,J. G. Ma,Yinina Ma,D. Magestro,S. Mahajan,D. P. Mahapatra,R. D. Majka,L. K. Mangotra,R. Manweiler,S. Margetis,Christina Markert,L. Martin,J. N. Marx,H. S. Matis,Yu A. Matulenko,C. J. McClain,T. S. McShane,F. Meissner,Yu Melnick,A. P. Meschanin,M. L. Miller,N. G. Minaev,C. Mironov,Andre Mischke,D. K. Mishra,J. Mitchell,Bedangadas Mohanty,L. Molnar,C. F. Moore,D. A. Morozov,Marcelo Gameiro Munhoz,Basanta Kumar Nandi,S. K. Nayak,T. K. Nayak,J. M. Nelson,Pawan Kumar Netrakanti,V. A. Nikitin,L. V. Nogach,S. B. Nurushev,G. Odyniec,A. Ogawa,V. A. Okorokov,M. Oldenburg,D. L. Olson,S. K. Pal,A. I. Pavlinov,T. Pawlak,Thomas Peitzmann,V. Perevoztchikov,C. Perkins,W. Peryt,Vladimir Petrov,S. C. Phatak,R. Picha,Mirko Planinic,J. Pluta,N. T. Porile,J. Porter,A. M. Poskanzer,M. Potekhin,E. Potrebenikova,B. V.K.S. Potukuchi,D. J. Prindle,Claude Andre Pruneau,Jorn Henning Putschke,Gregory Rakness,Rashmi Raniwala,Sudhir Raniwala,Olivier Ravel,R. L. Ray,S. V. Razin,D. Reichhold,Jeffrey G. Reid,J. Reinnarth,G. Renault,F. Retiere,A. Ridiger,H. G. Ritter,Jay Roberts,O. V. Rogachevskiy,J. L. Romero,Andrew Rose,C. Roy,L. Ruan,M. J. Russcher,Raghunath Sahoo,I. Sakrejda,Sevil Salur,J. Sandweiss,M. Sarsour,I.A. Savin,P. S. Sazhin,J. Schambach,R. P. Scharenberg,N. Schmitz,J. Seger,P. Seyboth,E. Shahaliev,M. Shao,W. Shao,Manish Sharma,Wen-Qing Shen,K. E. Shestermanov,S. S. Shimanskiy,E. P. Sichtermann,Frank Simon,Rama Narayana Singaraju,Nikolai Smirnov,Raimond Snellings,G. Sood,P. Sorensen,J. Sowinski,J. Speltz,H. M. Spinka,B. Srivastava,A. Stadnik,T. D. S. Stanislaus,R. Stock,A. Stolpovsky,M. Strikhanov,B. Stringfellow,Alexandre Alarcon Do Passo Suaide,E. Sugarbaker,C. Suire,Michal Sumbera,Bernd Surrow,M. Swanger,T. J. M. Symons,A. Szanto de Toledo,A. Tai,J. Takahashi,A. H. Tang,T. Tarnowsky,D. Thein,J. H. Thomas,Sergey Timoshenko,Mikhail Tokarev,S. Trentalange,R. E. Tribble,O. D. Tsai,J. Ulery,T. Ullrich,D. G. Underwood,G. Van Buren,M. van Leeuwen,A. M. Vander Molen,R. Varma,I. M. Vasilevski,Andrey Vasiliev,Renaud Vernet,S. E. Vigdor,Y. P. Viyogi,S. Vokal,Sergey Voloshin,W. T. Waggoner,Fuqiang Wang,G. Wang,X. L. Wang,Yanchu Wang,Zheng Wang,H. Ward,J. W. Watson,J. C. Webb,Gary Westfall,A. Wetzler,C. A. Whitten,G. Wieman,S. W. Wissink,R. Witt,John N. Wood,Jianhong Wu,Nu Xu,Z. Xu,Z. Z. Xu,E. Yamamoto,P. Yepes,V. I. Yurevich,H. Zborovsky,H. Zhang,W. M. Zhang,Y. Zhang,Zhenyu Zhang,R. Zoulkarneev,Y. Zoulkarneeva,A. N. Zubarev +366 more
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