Add to ORKGA model for the emission of high energy ( 100 MeV) gamma rays from the galactic disk was developed and compared to recent SAS-2 observations. In the calculation, it is assumed that (1) the high energy galactic gamma rays result primarily from the interaction of cosmic rays with galactic matter; (2) on the basis of theoretical and experimental arguments the cosmic ray density is proportional to the matter density on the scale of galactic arms; and (3) the matter in the galaxy, atomic and molecular, is distributed in a spiral pattern consistent with density wave theory and the experimental data on the matter distribution
Gamma-ray astronomy provides a unique tool to study Galactic cosmic rays far from Earth. Cosmic rays...
On the basis of the spatial distribution, intensity, and energy spectrum, the diffuse Galactic high-...
Interpretation of the present gamma-ray data above 100 MeV is discussed in relation to cosmic ray in...
Unexpectedly high energy gamma radiation over a broad region of the galactic plane in the general di...
The galaxy was observed to be a source of high energy gamma rays as shown by the two successful sate...
A high energy (35 MeV) gamma ray telescope employing a thirty-two level magnetic core spark chamber ...
Theoretical considerations and analysis of the results of gamma ray astronomy suggest that the galac...
Assuming cosmic rays pervade the Galaxy, they necessarily produced high energy gamma-rays as they in...
Data from a scan of the galactic plane by the SAS-B high energy gamma ray experiment in the region 2...
An attempt is made to distinguish origin locations and dominant production mechanisms of cosmic gamm...
Data from a scan of the galactic plane by the SAS-2 high energy gamma ray experiment in the region 2...
The relation of SAS-2 observations of galactic gamma-rays to the large scale distribution of cosmic ...
The SAS-2 gamma ray experiment and its detection of celestial gamma rays are described. Data also co...
The source of Galactic cosmic rays (with energies up to 10<sup>15</sup> eV) remains unclear, althoug...
The radial distribution of gamma ray emissivity in the Galaxy was derived from flux longitude profil...
Gamma-ray astronomy provides a unique tool to study Galactic cosmic rays far from Earth. Cosmic rays...
On the basis of the spatial distribution, intensity, and energy spectrum, the diffuse Galactic high-...
Interpretation of the present gamma-ray data above 100 MeV is discussed in relation to cosmic ray in...
Unexpectedly high energy gamma radiation over a broad region of the galactic plane in the general di...
The galaxy was observed to be a source of high energy gamma rays as shown by the two successful sate...
A high energy (35 MeV) gamma ray telescope employing a thirty-two level magnetic core spark chamber ...
Theoretical considerations and analysis of the results of gamma ray astronomy suggest that the galac...
Assuming cosmic rays pervade the Galaxy, they necessarily produced high energy gamma-rays as they in...
Data from a scan of the galactic plane by the SAS-B high energy gamma ray experiment in the region 2...
An attempt is made to distinguish origin locations and dominant production mechanisms of cosmic gamm...
Data from a scan of the galactic plane by the SAS-2 high energy gamma ray experiment in the region 2...
The relation of SAS-2 observations of galactic gamma-rays to the large scale distribution of cosmic ...
The SAS-2 gamma ray experiment and its detection of celestial gamma rays are described. Data also co...
The source of Galactic cosmic rays (with energies up to 10<sup>15</sup> eV) remains unclear, althoug...
The radial distribution of gamma ray emissivity in the Galaxy was derived from flux longitude profil...
Gamma-ray astronomy provides a unique tool to study Galactic cosmic rays far from Earth. Cosmic rays...
On the basis of the spatial distribution, intensity, and energy spectrum, the diffuse Galactic high-...
Interpretation of the present gamma-ray data above 100 MeV is discussed in relation to cosmic ray in...