Measurement of air shower cores to study the cosmic ray composition in the knee energy region

Authors :: A. X. Huo
K. Izu
N. J. Zhang
S. L. Lu
N. Tateyama
H. W. Guo
Jia Zhang
S. Torii
X. R. Meng
Y. Fu
M. He
Z. Z. Shi
M. Amenomori
C. S. Zhang
Jieru Ren
T. Sasaki
Huaguang Wang
Masaki Nishizawa
Zhaxisangzhu
Z. Y. Feng
M. Shibata
M. Sakata
K. Hibino
T. Yuda
A. Shiomi
T. Ouchi
Y. H. Tan
Zhaxiciren
H. M. Zhang
J. Y. Li
J. Mu
I. Ohta
H. Sugimoto
H. Nanjo
C. R. Wang
Danzengluobu
Y. Yamamoto
G. C. Yu
X. W. Xu
Q. Huang
S. Ayabe
L. K. Ding
A. F. Yuan
F. Kajino
Caidong
Z. R. Peng
G. X. Luo
Labaciren
M. Ohnishi
T. Shirai
H. Y. Jia
T. Utsugi
N. Hotta
X. Y. Zhang
Hsiao-Chi Lu
K. Taira
To. Saito
K.Mizutani K.Mizutani
Katsuaki Kasahara
Y. Katayose
Source :: Scopus-Elsevier
Publication Year :: 2000
Abstract: Since 1996, a hybrid experiment consisting of an emulsion chamber and a burst detector array and the Tibet-II air shower array has been operated at Yangbajing (4300 m above sea level) in Tibet. This experiment can detect air-shower cores, called burst events, accompanied by air showers in excess of about 100 TeV. Using the burst event data observed by this experiment, we discuss the primary cosmic ray composition around the knee in comparison with the Monte Carlo simulations. In this paper, we show that all the features of burst events are wholly compatible with the heavy enriched composition in the knee energy region.<br />20 pages, 21 figures, to appear in Physical Review D

Subjects :: Physics
Nuclear and High Energy Physics
Astrophysics (astro-ph)
Monte Carlo method
FOS: Physical sciences
Cosmic ray
Astrophysics
Nuclear physics
Air shower
Event data
Scintillation counter
Nuclear emulsion
Detector array
Energy (signal processing)

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