Forward Λ production and nuclear stopping power in d+Au collisions at sNN=200 GeV

B. Abelev, M. Aggarwal, Z. Ahammed,B. Anderson,D. Arkhipkin,G. Averichev, Y. Bai,J. Balewski,O. Barannikova,L. Barnby,J. Baudot,S. Baumgart,V. Belaga,A. Bellingeri-Laurikainen,R. Bellwied,F. Benedosso,R. Betts,S. Bhardwaj,A. Bhasin,A. Bhati, H. Bichsel, J. Bielcik, J. Bielcikova,L. Bland,S.-L. Blyth, M. Bombara,B. Bonner,M. Botje,J. Bouchet,A. Brandin,A. Bravar,T. Burton, M. Bystersky,X. Cai, H. Caines,M. Sánchez, J. Callner,O. Catu, D. Cebra,M. Cervantes,Z. Chajecki,P. Chaloupka,S. Chattopadhyay,H. Chen, J. Chen,J. Cheng, M. Cherney, A. Chikanian,W. Christie,S. Chung, R. Clarke,M. Codrington,J. Coffin,T. Cormier,M. Cosentino,J. Cramer, H. Crawford,D. Das,S. Dash,M. Daugherity,M. Moura,T. Dedovich,M. DePhillips,A. Derevschikov, L. Didenko, T. Dietel,P. Djawotho,S. Dogra, X. Dong,J. Drachenberg,J. Draper,F. Du,V. Dunin,J. Dunlop,M. Mazumdar,V. Eckardt,W. Edwards,L. Efimov,V. Emelianov,J. Engelage, G. Eppley,B. Erazmus, M. Estienne,P. Fachini,R. Fatemi,J. Fedorisin,A. Feng,P. Filip,E. Finch,V. Fine,Y. Fisyak,J. Fu,C. Gagliardi,L. Gaillard,M. Ganti, E. Garcia-Solis,V. Ghazikhanian,P. Ghosh,Y. Gorbunov,H. Gos, O. Grebenyuk,D. Grosnick,B. Grube,S. Guertin,K. Guimaraes,N. Gupta,B. Haag,T. Hallman,A. Hamed,J. Harris,W. He,M. Heinz,T. Henry,S. Heppelmann, B. Hippolyte, A. Hirsch, E. Hjort,A. Hoffman,G. Hoffmann,D. Hofman,R. Hollis,M. Horner,H. Huang,E. Hughes,T. Humanic, G. Igo,A. Iordanova, P. Jacobs,W. Jacobs, P. Jakl,F. Jia, P. Jones,E. Judd, S. Kabana,K. Kang,J. Kapitan,M. Kaplan,D. Keane,A. Kechechyan,D. Kettler,V. Khodyrev,J. Kiryluk,A. Kisiel,E. Kislov,S. Klein,A. Knospe,A. Kocoloski,D. Koetke,T. Kollegger,M. Kopytine,L. Kotchenda,V. Kouchpil,K. Kowalik,P. Kravtsov,V. Kravtsov, K. Krueger,C. Kuhn, A. Kulikov, A. Kumar,P. Kurnadi,A. Kuznetsov,M. Lamont,J. Landgraf,S. Lange,S. LaPointe,F. Laue, J. Lauret,A. Lebedev, R. Lednicky,C.-H. Lee,S. Lehocka,M. LeVine,C. Li,Q. Li,Y. Li, G. Lin, X. Lin,S. Lindenbaum,M. Lisa, F. Liu,H. Liu, J. Liu,L. Liu,T. Ljubicic,W. Llope, R. Longacre,W. Love,Y. Lu,T. Ludlam, D. Lynn,G. Ma,J. Ma,Y. Ma,D. Mahapatra,R. Majka,L. Mangotra,R. Manweiler,S. Margetis, C. Markert,L. Martin,H. Matis,Yu. Matulenko,C. McClain,T. McShane,Yu. Melnick, A. Meschanin,J. Millane,M. Miller,N. Minaev,S. Mioduszewski, A. Mischke,J. Mitchell,B. Mohanty,D. Morozov,M. Munhoz,B. Nandi,C. Nattrass,T. Nayak,J. Nelson,C. Nepali,P. Netrakanti,L. Nogach,S. Nurushev, G. Odyniec,A. Ogawa,V. Okorokov,M. Oldenburg, D. Olson,M. Pachr,S. Pal,Y. Panebratsev,A. Pavlinov,T. Pawlak, T. Peitzmann,V. Perevoztchikov,C. Perkins, W. Peryt,S. Phatak,M. Planinic, J. Pluta,N. Poljak,N. Porile,A. Poskanzer,M. Potekhin,E. Potrebenikova,B. Potukuchi,D. Prindle, C. Pruneau,N. Pruthi, J. Putschke,I. Qattan, R. Raniwala,S. Raniwala,R. Ray,D. Relyea,A. Ridiger,H. Ritter,J. Roberts,O. Rogachevskiy,J. Romero,A. Rose, C. Roy, L. Ruan,M. Russcher,R. Sahoo,I. Sakrejda, T. Sakuma, S. Salur,J. Sandweiss,M. Sarsour,P. Sazhin,J. Schambach,R. Scharenberg,N. Schmitz,J. Seger,I. Selyuzhenkov,P. Seyboth,A. Shabetai,E. Shahaliev,M. Shao,M. Sharma,W. Shen,S. Shimanskiy,E. Sichtermann,F. Simon,R. Singaraju, N. Smirnov, R. Snellings,P. Sorensen, J. Sowinski,J. Speltz,H. Spinka, B. Srivastava,A. Stadnik,T. Stanislaus,D. Staszak,R. Stock,M. Strikhanov,B. Stringfellow,A. Suaide,M. Suarez,N. Subba, M. Sumbera,X. Sun, Z. Sun,B. Surrow,T. Symons,A. Toledo, J. Takahashi,A. Tang,T. Tarnowsky,J. Thomas,A. Timmins,S. Timoshenko,M. Tokarev,T. Trainor,S. Trentalange,R. Tribble,O. Tsai,J. Ulery,T. Ullrich,D. Underwood,G. Buren,N. Kolk,M. Leeuwen,A. Molen,R. Varma,I. Vasilevski,A. Vasiliev,R. Vernet,S. Vigdor,Y. Viyogi,S. Vokal,S. Voloshin,M. Wada,W. Waggoner, F. Wang, G. Wang, J. Wang,X. Wang,Y. Wang,J. Webb,G. Westfall,C. Jr.,H. Wieman,S. Wissink,R. Witt,J. Wu,Y. Wu,N. Xu,Q. Xu,Z. Xu,P. Yepes,I. K. Yoo,Q. Yue,V. Yurevich,M. Zawisza,W. Zhan,H. Zhang,W. Zhang,Y. Zhang,Z. Zhang,Y. Zhao, C. Zhong,J. Zhou,R. Zoulkarneev,Y. Zoulkarneeva, A. Zubarev,J. Zuo

PHYSICAL REVIEW C（2007）

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摘要

We report the measurement of Lambda and (Lambda) over bar yields and inverse slope parameters in d+Au collisions at root s(NN)=200 GeV at forward and backward rapidities (y=+/- 2.75), using data from the STAR forward time projection chambers. The contributions of different processes to baryon transport and particle production are probed exploiting the inherent asymmetry of the d+Au system. Comparisons to model calculations show that baryon transport on the deuteron side is consistent with multiple collisions of the deuteron nucleons with gold participants. On the gold side, HIJING-based models without a hadronic rescattering phase do not describe the measured particle yields, while models that include target remnants or hadronic rescattering do. The multichain model can provide a good description of the net baryon density in d+Au collisions at energies currently available at the BNL Relativistic Heavy Ion Collider, and the derived parameters of the model agree with those from nuclear collisions at lower energies.

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