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Secondary antiproton production in relativistic plasmas (1986)

Dermer, C. D. ; Ramaty, R.

In: Other Sources

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Publication Date: 2011-08-19

Description: Angular and energy spectra of bremsstrahlung have been calculated from anisotropic electron distributions in solar flares. Results have been compared to observations of gamma-ray limb-brightening and the data on the variation of the gamma-ray spectrum with flare position on the sun.

Keywords: SPACE RADIATION

Type: Nature (ISSN 0028-0836); 319; 205

Format: text

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Neutron and antineutron production in accretion onto compact objects (1986)

Dermer, C. D. ; Ramaty, R.

In: CASI

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Publication Date: 2019-06-28

Description: Nuclear reactions in the hot accretion plasma surrounding a collapsed star are a source of neutrons, primarily through spallation and pion-producing reactions, and antineutrons, principally through the reaction p+p yields p+p+n+anti-n. We calculate spectra of neutrons and antineutrons produced by a variety of nonthermal energetic particle distributions in which the target particles are either at rest or in motion. If only neutral particles are free to escape the interaction site, a component of the proton and antiproton fluxes in the cosmic radiation results from the neutrons and antineutrons which leave the accretion plasma and subsequently decay in the interstellar medium. This additional antiproton component could account for the enhanced flux of antiprotons in the cosmic radiation, compared to values expected from the standard leaky-box model of cosmic-ray propagation and confinement. Moreover, the low-energy antiproton flux measured by Buffington et al. (1981) could result from target-particle motion in the accretion plasma. This model for the origin of antiprotons predicts a narrow 2.223 MeV line which could be observable.

Keywords: SPACE RADIATION

Type: NASA-TM-89264 , NAS 1.15:89264

Format: application/pdf

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Secondary antiproton production in relativistic plasmas (1985)

Ramaty, R. ; Dermer, C. D.

In: CASI

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Publication Date: 2019-06-28

Description: The possibility is investigated that the reported excess low energy antiproton component of the cosmic radiation results from proton-proton (p-p) interactions in relativistic plasmas. Because of both target and projectile motion in such plasmas, the antiproton production threshold in the frame of the plasma is much lower than the threshold of antiproton production in cosmic ray interactions with ambient matter. The spectrum of the resultant antiprotons therefore extends to much lower energy than in the cosmic ray case. The antiproton spectrum is calculated for relativistic thermal plasmas and the spectrum is estimated for relativistic nonthermal plasmas. As possible production sites, matter accreting onto compact objects located in the galaxy is considered. Possible overproduction of gamma rays from associated neutral pion production can be avoided if the site is optically thick to the photons but not to the antiprotons. A possible scenario involves a sufficiently large photon density that the neutral pion gamma rays are absorbed by photon-photon pair production. Escape of the antiprotons to the interstellar medium can be mediated by antineutron production.

Keywords: SPACE RADIATION

Type: OG-6.1-4 , 19th Intern. Cosmic Ray Conf - Vol. 2; p 338-341; NASA-CP-2376-VOL-2

Format: application/pdf

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