Antiproton Production inAu+AuCollisions at11.7AGeV/c

Authors :: Ryugo S. Hayano
J. Chang
Kenta Shigaki
F. Zhu
S. Y. Fung
J. C. Dunlop
H. Sako
J. B. Cumming
L. P. Remsberg
J. H. Kang
S. Nagamiya
Yang Wu
R. A. Soltz
Brian Cole
S. Gushue
K. Kurita
D. R. Beavis
J. Luke
H. Xiang
J.W. Olness
C. Chasman
K. Ashktorab
W. A. Zajc
L. Ahle
J. H. Thomas
Jongmin Lee
T. C. Sangster
E. Garcia
R. Seto
V. Cianciolo
M. D. Baker
S. Ueno-Hayashi
F. Videbæk
C. Muentz
R. R. Debbe
J. Engelage
Y. Y. Chu
J. Shea
S. G. Steadman
C. A. Ogilvie
C. Y. Chi
M. Moulson
G. H. Xu
George Stephans
Yasuo Miake
Fuqiang Wang
E. G. Judd
E. J. Kim
Hideki Hamagaki
Luisa F. Hansen
G. Heintzelman
Z. Chen
H. Yao
W. Eldredge
A. Kumagai
M. J. Tannenbaum
H. J. Crawford
Alice Mignerey
H. C. Britt
Y. Akiba
B. Moskowitz
K. Yagi
M. N. Namboodiri
Source :: Physical Review Letters. 81:2650-2654
Publication Year :: 1998
Publisher :: American Physical Society (APS), 1998.
Abstract: Antiproton production in 11.7A GeV/c Au+Au collisions over a wide transverse-mass coverage was studied using the AGS-E866 experimental apparatus. The mean transverse kinetic energy increases as a function of centrality and is similar to that of protons. The antiproton yields in Si+Al , Si+Au , and Au+Au collisions are consistent with scaling with the 0.7 power of the number of participant nucleons. Copyright 1998, The American Physical Society

Subjects :: Physics
Nuclear Theory
Nuclear structure
General Physics and Astronomy
Kinetic energy
Nuclear matter
Nuclear physics
Antiproton
Antimatter
High Energy Physics::Experiment
Atomic physics
Nuclear Experiment
Nucleon
Scaling

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