SPECTRAL INTENSITIES of ANTIPROTONS and the NESTED LEAKY-BOX MODEL for COSMIC RAYS in the GALAXY

R. Cowsik; T. Madziwa-Nussinov

doi:10.3847/0004-637X/827/2/119

SPECTRAL INTENSITIES of ANTIPROTONS and the NESTED LEAKY-BOX MODEL for COSMIC RAYS in the GALAXY

R. Cowsik
, T. Madziwa-Nussinov

Research output: Contribution to journal › Article › peer-review

43 Scopus citations

Abstract

In this paper we note that the spectral intensities of antiprotons observed in Galactic cosmic rays in the energy range ∼1-300 GeV by BESS, PAMELA, and AMS instruments display nearly the same spectral shape as that generated by primary cosmic rays through their interaction with matter in the interstellar medium, without any significant modifications. More importantly, a constant residence time of ∼2.3 0.7 million years in the Galactic volume, independent of the energy of cosmic rays, matches the observed intensities. A small additional component of secondary antiprotons in the energy range below 10 GeV, generated in cocoon-like regions surrounding the cosmic-ray sources, seems to be present. We discuss this result in the context of observations of other secondary components such as positrons and boron, and the bounds on anisotropy of cosmic rays. In the nested leaky-box model the spectral intensities of antiprotons and positrons can be interpreted as secondary products of cosmic-ray interactions.

Original language	English
Article number	119
Journal	Astrophysical Journal
Volume	827
Issue number	2
DOIs	https://doi.org/10.3847/0004-637X/827/2/119
State	Published - Aug 20 2016

Keywords

ISM: supernova remnants
acceleration of particles
astroparticle physics
cosmic rays
dark matter

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title = "SPECTRAL INTENSITIES of ANTIPROTONS and the NESTED LEAKY-BOX MODEL for COSMIC RAYS in the GALAXY",

abstract = "In this paper we note that the spectral intensities of antiprotons observed in Galactic cosmic rays in the energy range ∼1-300 GeV by BESS, PAMELA, and AMS instruments display nearly the same spectral shape as that generated by primary cosmic rays through their interaction with matter in the interstellar medium, without any significant modifications. More importantly, a constant residence time of ∼2.3 0.7 million years in the Galactic volume, independent of the energy of cosmic rays, matches the observed intensities. A small additional component of secondary antiprotons in the energy range below 10 GeV, generated in cocoon-like regions surrounding the cosmic-ray sources, seems to be present. We discuss this result in the context of observations of other secondary components such as positrons and boron, and the bounds on anisotropy of cosmic rays. In the nested leaky-box model the spectral intensities of antiprotons and positrons can be interpreted as secondary products of cosmic-ray interactions.",

keywords = "ISM: supernova remnants, acceleration of particles, astroparticle physics, cosmic rays, dark matter",

author = "R. Cowsik and T. Madziwa-Nussinov",

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AU - Cowsik, R.

AU - Madziwa-Nussinov, T.

PY - 2016/8/20

Y1 - 2016/8/20

N2 - In this paper we note that the spectral intensities of antiprotons observed in Galactic cosmic rays in the energy range ∼1-300 GeV by BESS, PAMELA, and AMS instruments display nearly the same spectral shape as that generated by primary cosmic rays through their interaction with matter in the interstellar medium, without any significant modifications. More importantly, a constant residence time of ∼2.3 0.7 million years in the Galactic volume, independent of the energy of cosmic rays, matches the observed intensities. A small additional component of secondary antiprotons in the energy range below 10 GeV, generated in cocoon-like regions surrounding the cosmic-ray sources, seems to be present. We discuss this result in the context of observations of other secondary components such as positrons and boron, and the bounds on anisotropy of cosmic rays. In the nested leaky-box model the spectral intensities of antiprotons and positrons can be interpreted as secondary products of cosmic-ray interactions.

AB - In this paper we note that the spectral intensities of antiprotons observed in Galactic cosmic rays in the energy range ∼1-300 GeV by BESS, PAMELA, and AMS instruments display nearly the same spectral shape as that generated by primary cosmic rays through their interaction with matter in the interstellar medium, without any significant modifications. More importantly, a constant residence time of ∼2.3 0.7 million years in the Galactic volume, independent of the energy of cosmic rays, matches the observed intensities. A small additional component of secondary antiprotons in the energy range below 10 GeV, generated in cocoon-like regions surrounding the cosmic-ray sources, seems to be present. We discuss this result in the context of observations of other secondary components such as positrons and boron, and the bounds on anisotropy of cosmic rays. In the nested leaky-box model the spectral intensities of antiprotons and positrons can be interpreted as secondary products of cosmic-ray interactions.

KW - ISM: supernova remnants

KW - acceleration of particles

KW - astroparticle physics

KW - cosmic rays

KW - dark matter

UR - https://www.scopus.com/pages/publications/84984675576

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DO - 10.3847/0004-637X/827/2/119

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SN - 0004-637X

VL - 827

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

M1 - 119

ER -

SPECTRAL INTENSITIES of ANTIPROTONS and the NESTED LEAKY-BOX MODEL for COSMIC RAYS in the GALAXY

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Keywords

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