Add to ORKGThe interstellar antiproton calculations were reexamined in view of the recent progress in measurements of interstellar electrons and He(3) nuclei. It was found that the divergence between the predicted antiproton flux and the existing datum at very low energies is increased. The proposed nonuniform galactic disk (NUGD) model qualitatively explains the unexpectedly large flux of interstellar antiprotons. Some ambiguities existed in the prototype of the model. It was unclear what fraction of observed antiprotons is of local origin. Previously the value of cosmic ray escape pathlength was suggested with quite a large arbitrariness
If antiprotons in cosmic rays are produced as secondary particles in sources, it is expected that po...
High energy collisions of cosmic ray (CR) nuclei with interstellar gas are believed to be the mechan...
Recent experimental observations and results are discussed. It was found that the approximately 50 a...
Cosmic ray antiprotons provide an important probe for the study of the galactic Dark Matter, as they...
A balloon-borne instrument has measured the cosmic-ray antiproton flux between 130 and 320 MeV and s...
Solution of Fokker-Planck diffusion equation in intensity prediction of antiproton component of prim...
A new generation of upcoming space-based experiments will soon start to probe the spectrum of cosmic...
High-energy collisions of cosmic-ray nuclei with interstellar gas are believed to be the mechanism ...
Most cosmic ray antiprotons observed near the Earth are secondaries produced in collisions of energe...
The flux of secondary antiprotons expected for the leaky-box model was calculated as well as that fo...
In the frame work of energy dependent confinement for cosmic rays, the energy spectrum inside the so...
The high energy electron spectrum analysis has shown that the electron intensity inside the H2 cloud...
High-energy collisions of cosmic-ray nuclei with interstellar gas are believed to be the mechanism p...
The Isotope Matter Antimatter Experiment (IMAX) has detected 16 antiprotons, in the energy range fr...
We examine the transport of cosmic-ray protons and anitprotons from local interstellar space through...
If antiprotons in cosmic rays are produced as secondary particles in sources, it is expected that po...
High energy collisions of cosmic ray (CR) nuclei with interstellar gas are believed to be the mechan...
Recent experimental observations and results are discussed. It was found that the approximately 50 a...
Cosmic ray antiprotons provide an important probe for the study of the galactic Dark Matter, as they...
A balloon-borne instrument has measured the cosmic-ray antiproton flux between 130 and 320 MeV and s...
Solution of Fokker-Planck diffusion equation in intensity prediction of antiproton component of prim...
A new generation of upcoming space-based experiments will soon start to probe the spectrum of cosmic...
High-energy collisions of cosmic-ray nuclei with interstellar gas are believed to be the mechanism ...
Most cosmic ray antiprotons observed near the Earth are secondaries produced in collisions of energe...
The flux of secondary antiprotons expected for the leaky-box model was calculated as well as that fo...
In the frame work of energy dependent confinement for cosmic rays, the energy spectrum inside the so...
The high energy electron spectrum analysis has shown that the electron intensity inside the H2 cloud...
High-energy collisions of cosmic-ray nuclei with interstellar gas are believed to be the mechanism p...
The Isotope Matter Antimatter Experiment (IMAX) has detected 16 antiprotons, in the energy range fr...
We examine the transport of cosmic-ray protons and anitprotons from local interstellar space through...
If antiprotons in cosmic rays are produced as secondary particles in sources, it is expected that po...
High energy collisions of cosmic ray (CR) nuclei with interstellar gas are believed to be the mechan...
Recent experimental observations and results are discussed. It was found that the approximately 50 a...