Abstract

view Abstract Citations (18) References (33) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS The Origin of Cosmic Rays. II. The Cosmic-Ray Distribution and the Spiral Structure of NGC 3310 Duric, N. Abstract The optical and radio continuum properties of the spiral arms of NGC 3310 are analyzed and intercompared. The likely presence of a strong density wave in NGC 3310 is demonstrated, and a number of observational results constraining the relationship between synchrotron emission, emission line radiation, and starlight are developed. The role of supernova remnants in the production of relativistic particles is investigated and found to be inconsistent with the constraints. The generation of cosmic rays by global spiral shocks via a Fermi-type shock acceleration process is shown to agree with all the major constraints, suggesting that the rotation of the galaxy powers the acceleration of particles to cosmic ray energies. A medium with temperature of 10,000 K, partially to fully ionized, is shown to support the diffusive shock acceleration mechanism. Publication: The Astrophysical Journal Pub Date: May 1986 DOI: 10.1086/164147 Bibcode: 1986ApJ...304...96D Keywords: Cosmic Rays; Galactic Structure; Radiation Distribution; Spiral Galaxies; Astronomical Maps; Density Wave Model; Galactic Rotation; Particle Acceleration; Synchrotron Radiation; Space Radiation; COSMIC RAYS: GENERAL; GALAXIES: INDIVIDUAL NGC NUMBER: NGC 3310; GALAXIES: STRUCTURE; PARTICLE ACCELERATION; RADIO SOURCES: GALAXIES; SHOCK WAVES full text sources ADS | data products SIMBAD (10) NED (10) Related Materials (2) Part 1: 1986ApJ...304...82D Part 3: 1986ApJ...304..111D

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