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CANGAROO-III search for TeV Gamma-rays from two clusters of galaxies

Authors :
Yasushi Muraki
S. Yanagita
Ken'ichi Tsuchiya
S. Hara
Geoffrey V. Bicknell
Tatsuo Yoshida
A. Seki
K. Nishijima
Y. Sakamoto
Y. Hirai
Fuyuki Tokanai
S. Hayashi
Philip G. Edwards
C. Itoh
J. Kushida
Victor Stamatescu
Hideaki Katagiri
Hiroshi Muraishi
Ryoji Enomoto
Tsuguya Naito
Toshikazu Suzuki
Masaki Mori
Toru Tanimori
R. Kiuchi
Roger W Clay
Kunio Inoue
T. Hattori
D. Nishida
Hidetoshi Kubo
Tadashi Kifune
Y. Yamada
Takanori Yoshikoshi
Takeshi Nakamori
T. Hara
Y. Mizumoto
Michiko Ohishi
Yusuke Higashi
Y. Yukawa
F. Kajino
S. Nakano
Yutaka Matsubara
D. L. Swaby
Shuichi Gunji
Shin Watanabe
G. J. Thornton
E. Yamazaki
Shigeto Kabuki
R. Mizuniwa
T. Mizukami
Akiko Kawachi
Publication Year :
2009

Abstract

Because accretion and merger shocks in clusters of galaxies may accelerate particles to high energies, clusters are candidate sites for the origin of ultra-high-energy (UHE) cosmic-rays. A prediction was presented for gamma-ray emission from a cluster of galaxies at a detectable level with the current generation of imaging atmospheric Cherenkov telescopes. The gamma-ray emission was produced via inverse Compton upscattering of cosmic microwave background (CMB) photons by electron-positron pairs generated by collisions of UHE cosmic rays in the cluster. We observed two clusters of galaxies, Abell 3667 and Abell 4038, searching for very-high-energy gamma-ray emission with the CANGAROO-III atmospheric Cherenkov telescope system in 2006. The analysis showed no significant excess around these clusters, yielding upper limits on the gamma-ray emission. From a comparison of the upper limit for the north-west radio relic region of Abell 3667 with a model prediction, we derive a lower limit for the magnetic field of the region of ~0.1 micro G. This shows the potential of gamma-ray observations in studies of the cluster environment. We also discuss the flux upper limit from cluster center regions using a model of gamma-ray emission from neutral pions produced in hadronic collisions of cosmic-ray protons with the intra-cluster medium (ICM). The derived upper limit of the cosmic-ray energy density within this framework is an order of magnitude higher than that of our Galaxy.<br />7 pages, 6 figures, Accepted in ApJ

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....cf53eb1b7a0369de5268086e549654fb