A. Asahara scite author profile

Protons with energies up to ~ 10 15 eV are the main component 1 of cosmic rays, but evidence for the specific locations where they could have been accelerated to these energies has been lacking 2 . Electrons are known to be accelerated to cosmic-ray energies in supernova remnants 3,4 , and the shock waves associated with such remnants, when they hit the surrounding interstellar medium, could also provide the energy to accelerate protons. The signature of such a process would be the decay of pions (π 0 ), which are generated when the protons collide with atoms and molecules in an interstellar cloud: pion decay results in γ-rays with a particular spectral-energy distribution 5,6 . Here we report the observation of cascade showers of optical photons resulting fromγ-rays at energies of ~ 10 12 eV hitting Earth's upper atmosphere, in the direction of the supernova remnant RX J1713.7-3946. The spectrum is a good match to that predicted by pion decay, and cannot be explained by other mechanisms.

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Detection of Sub-TeV Gamma Rays from the Galactic Center Direction by CANGAROO-II

Tsuchiya

Enomoto

Ksenofontov

et al. 2004

ApJ

166

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We have detected sub-TeV gamma-ray emission from the direction of the Galactic center (GC) using the CANGAROO-II Imaging Atmospheric Cerenkov Telescope. We detected a statistically significant excess at energies greater than 250 GeV. The flux was 1 order of magnitude lower than that of the Crab Nebula at 1 TeV with a soft spectrum proportional to . The signal centroid is consistent with the GC direction, and the Ϫ4.6‫5.0ע‬E observed profile is consistent with a pointlike source. Our data suggest that the GeV source 3EG J1746Ϫ2851 is identical to this TeV source, and we study the combined spectra to determine the possible origin of the gammaray emission. We also obtain an upper limit on the cold dark matter density in the Galactic halo.

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A Search for TeV Gamma‐Ray Emission from the PSR B1259−63/SS 2883 Binary System with the CANGAROO‐II 10 Meter Telescope

Kawachi

Naito

Patterson

et al. 2004

ApJ

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Observations of the PSR B1259À63/SS 2883 binary system using the CANGAROO-II Cerenkov telescope are reported. This nearby binary consists of a 48 ms radio pulsar in a highly eccentric orbit around a Be star and offers a unique laboratory to investigate the interactions between the outflows of the pulsar and Be star at various distances. It has been pointed out that the relativistic pulsar wind and the dense mass outflow of the Be star may result in the emission of gamma rays up to TeV energies. We have observed the binary in 2000 and 2001, $47 and $157 days after the 2000 October periastron. Upper limits at the 0.13-0.54 crab level are obtained. A new model calculation for high-energy gamma-ray emission from the Be star outflow is introduced, and the estimated gammaray flux, considering bremsstrahlung, inverse Compton scattering, and the decay of neutral pions produced in proton-proton interactions, is found to be comparable to the upper limits of these observations. Comparing our results with these model calculations, we constrain the mass-outflow parameters of the Be star.

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Detection of Gamma Rays around 1 TeV from RX J0852.0-4622 by CANGAROO-II

Katagiri

Enomoto

Ksenofontov

et al. 2005

ApJ

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A Search for Sub‐TeV Gamma Rays from the Vela Pulsar Region with CANGAROO‐III

Enomoto

Tsuchiya

Adachi

et al. 2006

ApJ

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We made stereoscopic observations of the Vela Pulsar region with two of the 10 m diameter CANGAROO-III imaging atmospheric Cherenkov telescopes in January and February, 2004, in a search for sub-TeV gamma-rays from the pulsar and surrounding regions. We describe the observations, provide a detailed account of the calibration methods, and introduce the improved and bias-free analysis techniques employed for CANGAROO-III data. No evidence of gamma-ray emission is found from either the pulsar position or the previously reported position offset by 0.13 degree, and the resulting upper limits are a factor of five less than the previously reported flux from observations with the CANGAROO-I 3.8 m telescope. Following the recent report by the H.E.S.S. group of TeV gamma-ray emission from the Pulsar Wind Nebula, which is ∼0.5 degree south of the pulsar position, we examined this region and found supporting evidence for emission extended over ∼0.6 degree.

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A. Asahara

The acceleration of cosmic-ray protons in the supernova remnant RX J1713.7–3946

Detection of Sub-TeV Gamma Rays from the Galactic Center Direction by CANGAROO-II

A Search for TeV Gamma‐Ray Emission from the PSR B1259−63/SS 2883 Binary System with the CANGAROO‐II 10 Meter Telescope

Detection of Gamma Rays around 1 TeV from RX J0852.0-4622 by CANGAROO-II

A Search for Sub‐TeV Gamma Rays from the Vela Pulsar Region with CANGAROO‐III

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