Pion Imaging at the AGS

Authors :: S. Wang
S. Gushue
Z. Milosevich
D. L. Olson
W. Caskey
N. N. Ajitanand
F. P. Brady
Kenneth M. Crowe
M. A. Lisa
M. Justice
Y. M. Liu
Lei Huo
Brian Cole
R. Witt
C. Pinkenburg
T. Wienold
J. L. Chance
D. Cebra
B. K. Srivastava
Morton Kaplan
J. C. Kintner
Xiaodong Yang
N. T. B. Stone
A. S. Hirsch
T. J. M. Symons
S. Y. Panitkin
N. T. Porile
J. Whitfield
E. Hjort
G. Odyniec
L. S. Schroeder
T. Case
Y. Zhang
R. L. McGrath
M. L. Gilkes
L. Wood
James Alexander
J. L. Romero
Russell Wells
H. Liu
J. E. Draper
A. C. Das
H. G. Ritter
J. L. Klay
Roy A. Lacey
M. Heffner
W. N. Zhang
Michael W. Anderson
R. P. Scharenberg
G. Rai
D. Keane
P. Chung
D. Best
David Krofcheck
Publication Year :: 2000
Abstract: Source imaging analysis was performed on two-pion correlations in central Au + Au collisions at beam energies between 2 and 8$A$ GeV. We apply the imaging technique by Brown and Danielewicz, which allows a model-independent extraction of source functions with useful accuracy out to relative pion separations of about 20 fm. We found that extracted source functions have Gaussian shapes. Values of source functions at zero separation are almost constant across the energy range under study. Imaging results are found to be consistent with conventional source parameters obtained from a multidimensional HBT analysis.<br />Talk given at Bologna 2000 - Structure of the Nucleus at the Dawn of the Century, Bologna, Italia, May 29 - June 3, 2000

Subjects :: Physics
Nuclear physics
Pion
FOS: Physical sciences
Nuclear Experiment (nucl-ex)
Nuclear Experiment

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