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Energy loss of cosmic rays in the interplanetary (1972)

Fisk, L. A.

In: CASI

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Publication Date: 2005-11-30

Description: The problems associated with determining the loss of energy by interstellar cosmic ray particles as they pass through interplanetary space to earth are discussed.

Keywords: SPACE SCIENCES

Type: Significant Accomplishments in Sci., 1970; p 222-226

Format: text

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2

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Electrons in quiet-time increases, samplers of conditions in the outer solar system (1971)

Fisk, L. A. ; Vanhollebeke, M.

In: CASI

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Publication Date: 2016-06-07

Description: An explanation for quiet-time electron increases is proposed which predicts as the existence of a modulating region for cosmic ray particles lying at approximately 30 AU from the Sun.

Keywords: SPACE SCIENCES

Type: Goddard Space Flight Center Contrib. to the Twelft Intern. Conf. on Cosmic Rays; p 77-82

Format: application/pdf

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3

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Correlation length for interplanetary magnetic field fluctuations. (1973)

Sari, J. W. ; Fisk, L. A.

In: Other Sources

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Publication Date: 2019-06-27

Description: It is argued that it is necessary to consider two correlation lengths for interplanetary magnetic field fluctuations. For particles with gyroradii large enough to encounter and be scattered by large-scale tangential discontinuities in the field (particles with energies of above several GeV/nucleon) the appropriate correlation length is simply the mean spatial separation between the discontinuities. Particles with gyroradii much less than this mean separation appear to be unaffected by the discontinuities and respond only to smaller-scale field fluctuations. With this system of two correlation lengths the cosmic ray diffusion tensor may be altered from what was predicted by, for example, Jokipii and Coleman, and the objections raised recently by Klimas and Sandri to the diffusion analysis of Jokipii may apply only at relatively low energies (about 50 MeV/nucleon).

Keywords: SPACE SCIENCES

Type: Journal of Geophysical Research; 78; Oct. 1

Format: text

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4

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Detection of interplanetary electrons from 18 keV to 1.8 MeV during solar quiet times, 1. On the origin of 200 KeV interplanetary electrons, 2. (1972)

Anderson, K. A. ; Cline, T. L. ; Lin, R. P. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: A quiet time component of interplanetary electrons having energies above solar wind energies and below those characterized as cosmic radiation was observed. Its energy spectrum falls with energy from 18 keV to 1.8 MeV, but it shows a feature in the 100 to 300 keV range. The observed temporal variations of the intensity suggest that the 18 to 100 keV portion is solar and the 0.3 to 1.8 MeV portion is galactic in origin. Solar and terrestrial neutron decay electrons appear inadequate to explain the 100 to 300 keV feature.

Keywords: SPACE SCIENCES

Type: NASA-TM-X-65935 , X-661-72-221

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5

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The correlation length for interplanetary magnetic field fluctuations (1972)

Fisk, L. A. ; Sari, J. W.

In: CASI

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Publication Date: 2019-06-27

Description: It is argued that it is appropriate to consider two correlation lengths for interplanetary magnetic field fluctuations. For particles with gyro-radii large enough to encounter and be scattered by large-scale tangential discontinuities in the field (particles with energies greater than or approximately equal to several GeV/nucleon) the appropriate correlation length is simply the mean spatial separation between the discontinuities, L approximately 2 x 10 to the 11th power. Particles with gyro-radii much less than this mean separation (energies less than or approximately equal to 100 MeV/nucleon) appear to be unaffected by the discontinuities and respond only to smaller-scale field fluctuations. For these particles the correlation length is shown to be L approximately 10 to the 10th power cm. With this system of two correlation lengths the cosmic-ray diffusion tensor may be altered from what was predicted by, for example, Jokipii and Coleman, and the objections raised recently by Klimas and Sandri to the diffusion analysis of Jokipii may apply only at relatively low energies (approximately 50 MeV/nucleon).

Keywords: SPACE SCIENCES

Type: NASA-TM-X-66138 , X-660-72-465

Format: application/pdf

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