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1

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Sources of the ultraheavy cosmic rays (1985)

Margolis, S. H. ; Blake, J. B.

In: CASI

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Publication Date: 2019-06-28

Description: The suggestions that the source abundances of cosmic ray nuclei heavier then Fe differ significantly from Solar System abundances are not well supported by the data without assuming preferential acceleration. The Solar System abundances of Pb and Bi are split into r-, standard s-, and cyclic 8-process components; the apprarent deficiency of Pb seen in the HEAO-3 Heavy Nuclei Experiment data might indicate an absence of Pb from the recycling 8-process.

Keywords: SPACE RADIATION

Type: OG-7.1-7 , 19th Intern. Cosmic Ray Conf - Vol. 3; p 21-24; NASA-CP-2376-VOL-3

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2

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Ultra-heavy cosmic rays: Theoretical implications of recent observations (1977)

Anglin, J. D. ; Blake, J. B. ; Schramm, D. N. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: Extreme ultraheavy cosmic ray observations (Z greater or equal 70) are compared with r-process models. A detailed cosmic ray propagation calculation is used to transform the calculated source distributions to those observed at the earth. The r-process production abundances are calculated using different mass formulae and beta-rate formulae; an empirical estimate based on the observed solar system abundances is used also. There is the continued strong indication of an r-process dominance in the extreme ultra-heavy cosmic rays. However it is shown that the observed high actinide/Pt ratio in the cosmic rays cannot be fit with the same r-process calculation which also fits the solar system material. This result suggests that the cosmic rays probably undergo some preferential acceleration in addition to the apparent general enrichment in heavy (r-process) material. As estimate also is made of the expected relative abundance of superheavy elements in the cosmic rays if the anomalous heavy xenon in carbonaceous chondrites is due to a fissioning superheavy element.

Keywords: SPACE RADIATION

Type: NASA-CR-155512 , ATR-78(9461)-2

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3

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Modulation of trapped energetic electrons at 6.6 earth radii by the direction of the interplanetary magnetic field (1976)

Blake, J. B. ; Paulikas, G. A.

In: Other Sources

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Publication Date: 2019-06-27

Description: Energetic (energies greater than 1.6 and 3.9 MeV) trapped electron fluxes observed at the synchronous altitude during 1974 and 1975 by an experiment aboard ATS-6 exhibit a modulation in intensity which is correlated with the passage of sector-structure boundaries of the interplanetary magnetic field past the earth. The electron fluxes reach equilibrium intensities during the time the magnetosphere is in a given IMF sector; these fluxes are highest in the fall for (+) sectors and highest in the spring for (-) sectors.

Keywords: SPACE RADIATION

Type: Geophysical Research Letters; 3; May 1976

Format: text

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4

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Measurement of energetic particle radiation at the synchronous altitude aboard ATS-6 (1975)

Paulikas, G. A. ; Blake, J. B. ; Imamoto, S. S.

In: CASI

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Publication Date: 2019-06-27

Description: The Aerospace Corporation energetic electron-proton spectrometer operating on ATS-6 is described. This experiment detects energetic electrons in four channels between 140 keV and greater than 3.9 MeV, measures energetic protons in five energy channels between 2.3 and 80 MeV and energetic alpha particles in three channels between 9.4 and 94 MeV. After more than a year of operation in orbit, the experiment continues to return excellent data on the behavior of energetic magnetospheric electrons as well as information regarding the fluxes of solar protons and alpha particles.

Keywords: SPACE RADIATION

Type: NASA-CR-146849 , AD-A016530 , TR-0076(6260-20)-7 , SAMSO-TR-75-227

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5

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Ultraheavy cosmic rays - Theoretical implications of recent observations (1978)

Anglin, J. D. ; Blake, J. B. ; Schramm, D. N. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: The recent extreme ultraheavy cosmic-ray observations (Z greater than or equal to 70) are compared with r-process models. A detailed cosmic ray propagation calculation is used to transform the calculated source distributions to those observed at the earth. The r-process production abundances are calculated using different mass formulae and beta-rate formulae; an empirical estimate based on the observed solar-system abundances is also used. There is the continued strong indication of an r-process dominance in the extreme ultraheavy cosmic rays. It is shown that the observed high actinide/Pt ratio in the cosmic rays cannot be fitted with the same r-process calculation which also fits the solar-system material. This result suggests that the cosmic rays probably undergo some preferential acceleration in addition to the apparent general enrichment in heavy (r-process) material. An estimate is also made of the expected relative abundance of superheavy elements in the cosmic rays if the anomalous heavy xenon in carbonaceous chondrites is due to a fissioning superheavy element.

Keywords: SPACE RADIATION

Type: Astrophysical Journal; vol. 221

Format: text

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6

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ATS-6 - Energetic particle radiation measurement at synchronous altitude (1975)

Paulikas, G. A. ; Imamoto, S. S. ; Blake, J. B.

In: Other Sources

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Publication Date: 2019-06-27

Description: The energetic electron-proton spectrometer operating on Applications Technology Satellite-6 (ATS-6) detects energetic electrons in four channels between 140 keV and greater than 3.9 MeV, and measures energetic protons in five energy channels between 2.3 and 80 MeV and energetic alpha particles in three channels between 9.4 and 94 Mev. After more than a year of operation in orbit, the experiment continues to return excellent data on the behavior of energetic magnetospheric electrons as well as information regarding the fluxes of solar protons and alpha particles.

Keywords: SPACE RADIATION

Type: IEEE Transactions on Aerospace and Electronic Systems; AES-11; Nov. 197

Format: text

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7

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UH cosmic rays and solar system material - The elements just beyond iron (1977)

Schramm, D. N. ; Wefel, J. P. ; Blake, J. B.

In: Other Sources

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Publication Date: 2019-06-27

Description: The nucleosynthesis of cosmic-ray elements between the iron peak and the rare-earth region is examined, and compositional changes introduced by propagation in interstellar space are calculated. Theories on the origin of elements heavier than iron are reviewed, a supernova model of explosive nucleosynthesis is adopted for the ultraheavy (UH) cosmic rays, and computational results for different source distributions are compared with experimental data. It is shown that both the cosmic-ray data and the nucleosynthesis calculations are not yet of sufficient precision to pinpoint the processes occurring in cosmic-ray source regions, that the available data do provide boundary conditions for cosmic-ray nucleosynthesis, and that these limits may apply to the origin of elements in the solar system. Specifically, it is concluded that solar-system abundances appear to be consistent with a superposition of the massive-star core-helium-burning s-process plus explosive-carbon-burning synthesis for the elements from Cu to As and are explained adequately by the s- and r-processes for heavier elements.

Keywords: SPACE RADIATION

Type: Astrophysics and Space Science; 49; 1, Ju; June 197

Format: text

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8

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Anomalous cosmic ray oxygen gradients throughout the heliosphere (1995)

Blake, J. B. ; Hovestadt, D. ; Cummings, J. R. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: We have used data from the Solar, Anomalous, and Magnetospheric Particle Explorer (SAMPEX), Ulysses, Voyager 1, Voyager 2, and Pioneer 10 spacecraft to determine the radial and latitudinal gradients of anomalous cosmic ray oxygen at 10 MeV/nuc during the last half of 1993. These five spacecraft cover radial distances from 1 AU (SAMPEX) to 58 AU (P10) and latitudes to 41 deg S (Ulysses) and 32 deg N (V1). We find that the radial gradient is a decreasing function of radial distance, approximately r(exp -n), with n = 1.7 +/- 0.7. The large-scale radial gradient between the inner and outer heliosphere is much smaller than it was during the last solar minimum period in approximately 1987. The latitudinal gradient is small and positive, 1.3 +/- 0.4 %/deg, as opposed to the large and negative latitudinal gradients found during 1987, but similar to the small positive latitudinal gradient measured during 1976 for anomalous cosmic ray helium. These observations confirm that effects of curvature and gradient drift in the large scale magnetic field of the Sun are important for establishing the three-dimensional intensity distributions of these particles in the heliosphere during periods of solar minimum conditions.

Keywords: SPACE RADIATION

Type: Geophysical Research Letters (ISSN 0094-8276); 22; 4; p. 341-344

Format: text

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9

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Reduction and analysis of ATS-6 data (1975)

Paulikas, G. A. ; Blake, J. B.

In: CASI

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Publication Date: 2019-07-13

Description: A data reduction program was developed and debugged which presents the Aerospace particle data and the UCLA magnetometer data in a variety of formats suitable for analysis as well as further data processing. Fifty days of data were processed through this program and analysis of these data were begun. In addition, modifications were made to an old ATS-1 program in order to enable this program to process ATS-1 data obtained simultaneously with ATS-6 data acquisitions during 1974. Some analysis of ATS-1 data and comparison with ATS-6 data also went forward. Preparations were begun to transfer ATS-6 data to the National Space Science Data Center. These efforts are described in detail.

Keywords: SPACE RADIATION

Type: NASA-CR-146347 , ATR-75(7517)-1 , SPL-76(7517)-1

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10

Unknown

UH cosmic rays: Possible origin in massive stars (1977)

Schramm, D. N. ; Blake, J. B. ; Wefel, J. P.

In: Other Sources

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Publication Date: 2019-06-27

Description: The origin of the Z greater than 28, ultraheavy, cosmic rays in supernova explosions of massive stars is considered. For Z greater than 70, the UH data is dominated by an r-process source distribution, but for the elements just beyond iron, 29 or = Z less than 36, the data cannot be explained by any single process of nucleosynthesis. This problem is solved naturally in a massive star model by secondary neutron capture reactions occuring during core helium burning and during explosive carbon burning. Interstellar propagation calculations were performed with these episodes of synthesis as source distributions, and the results offer an explanation for the current UH cosmic-ray data. The heavy element synthesis during explosive carbon burning is reexamined using more realistic initial conditions given by the post-helium-burning configuration of the star. Effects of preferential acceleration are considered, and experimental tests are discussed.

Keywords: SPACE RADIATION

Type: Aerospace Corp. Compilation of Contrib. to the 15th Intern. Cosmic Ray Conf.; p 7-12

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