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High-energy neutrinos from a lunar observatory (1985)

Silberberg, R. ; Shapiro, M. M.

In: CASI

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Publication Date: 2019-06-28

Description: The detection of high-energy (HE) cosmic and solar-flare neutrions near the lunar surface would be feasible at energies much lower than for a terrestrial observatory. At these lower energies ( 10 to the 9th eV), the neutrino background is drastically reduced below that generated by cosmic rays in the Earth's atmosphere. Because of the short mean free path ( 1m) of the progenitor pi and K mesons against nuclear interactions in lunar rocks, the neutrino background would be quite low. At 1 GeV, less than 1% of the pions would decay; at 10 GeV, 0.1%. Thus, if the neutrino flux to be observed is intense enough, and its spectrum is steep enough, then the signal-to-noise ratio is very favorable. The observation of HE neutrinos from solar flares would be dramatically enhanced, especially at lower energies, since the flare spectra are very steep. Detection of these neutrinos on Earth does not appear to be feasible. A remarkable feature of solar flares as viewed in HE neutrinos from a lunar base is that the entire surface of the Sun would be visible.

Keywords: SPACE RADIATION

Type: HE-5.3-21 , 19th Intern. Cosmic Ray Conf - Vol. 8; p 160-163; NASA-CP-2376-VOL-8

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Propagation of cosmic rays and new evidence for distributed acceleration (1985)

Letaw, J. R. ; Tsao, C. H. ; Shapiro, M. M. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The origin and propagation of cosmic rays in terms of conventional and supplementary newer assumptions were explored. Cosmic rays are considered to be accelerated by supernoava shock waves and to traverse clouds in the source region. After rigidity-dependent escape from these clouds into interstellar space, cosmic rays are further accelerated by the weakened shocks of old supernova remnants and then pass through additional material. The distributed acceleration hypothesis is discussed with emphasis on recent data on the abundances of cosmic-ray isotopes of N above 1 GeV/u and of He near 6 GeV/u.

Keywords: SPACE RADIATION

Type: OG-8.3-5 , 19th Intern. Cosmic Ray Conf - Vol. 3; p 238-241; NASA-CP-2376-VOL-3

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Do supernovae of type 1 paly a role in cosmic-ray production? (1985)

Shapiro, M. M.

In: CASI

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Publication Date: 2019-06-28

Description: A model of cosmic-ray origin is suggested which aims to account for some salient features of the composition. Relative to solar abundances, the Galactic cosmic rays (GCR) are deficient in hydrogen and helim (H and He) by an order of magnitude when the two compositions are normalized at iron. Our conjectural model implicates supernovae of Type I (SN-I) as sources of some of the GCR. SN-I occur approximately as often as SN-II, through their genesis is thought to be different. Recent studies of nucleosynthesis in SN-I based on accreting white dwarfs, find that the elements from Si to Fe are produced copiously. On the other hand, SN-I are virtually devoid of hydrogen, and upper limits deduced for He are low. If SN-I contribute significantly to the pool of GCR by injecting energetic particles into the interstellar medium (ISM), then this could explain why the resulting GCR is relatively deficient in H and He. A test of the model is proposed, and difficulties are discussed.

Keywords: SPACE RADIATION

Type: OG-8.2-5 , 19th Intern. Cosmic Ray Conf - Vol. 3; p 163-166; NASA-CP-2376-VOL-3

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