Observation by an air-shower array in Tibet of the multi-TeV cosmic-ray anisotropy due to terrestrial orbital motion around the Sun.

Authors :: Amenomori M
Ayabe S
Cui SW
Danzengluobu
Ding LK
Ding XH
Feng CF
Feng ZY
Gao XY
Geng QX
Guo HW
He HH
He M
Hibino K
Hotta N
Hu H
Hu HB
Huang J
Huang Q
Jia HY
Kajino F
Kasahara K
Katayose Y
Kato C
Kawata K
Labaciren
Le GM
Li JY
Lu H
Lu SL
Meng XR
Mizutani K
Mori S
Mu J
Munakata K
Nanjo H
Nishizawa M
Ohnishi M
Ohta I
Onuma H
Ouchi T
Ozawa S
Ren JR
Saito T
Sakata M
Sasaki T
Shibata M
Shiomi A
Shirai T
Sugimoto H
Takita M
Tan YH
Tateyama N
Torii S
Tsuchiya H
Udo S
Utsugi T
Wang BS
Wang H
Wang X
Wang YG
Wu HR
Xue L
Yamamoto Y
Yan CT
Yang XC
Yasue S
Ye ZH
Yu GC
Yuan AF
Yuda T
Zhang HM
Zhang JL
Zhang NJ
Zhang XY
Zhang Y
Zhaxisangzhu
Zhou XX
Source :: Physical review letters [Phys Rev Lett] 2004 Aug 06; Vol. 93 (6), pp. 061101. Date of Electronic Publication: 2004 Aug 05.
Publication Year :: 2004
Abstract: We report on the solar diurnal variation of the galactic cosmic-ray intensity observed by the Tibet III air shower array during the period from 1999 to 2003. In the higher-energy event samples (12 and 6.2 TeV), the variations are fairly consistent with the Compton-Getting anisotropy due to the terrestrial orbital motion around the Sun, while the variation in the lower-energy event sample (4.0 TeV) is inconsistent with this anisotropy. This suggests an additional anisotropy superposed at the multi-TeV energies, e.g., the solar modulation effect. This is the highest-precision measurement of the Compton-Getting anisotropy ever made.

Full Text Access

Tools