Computer Science
Scientific paper
Sep 1960
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1960natur.187.1099s&link_type=abstract
Nature, Volume 187, Issue 4743, pp. 1099-1100 (1960).
Computer Science
1
Scientific paper
THE solar diurnal variation of cosmic-ray intensity is usually assumed to be due to the rotation of the Earth in a cloud of particles. The velocity of the latter should be randomly distributed with a small additional component in one direction, thus constituting a kind of particle wind. For various reasons it can be assumed that this wind is following the Earth, approximately parallel to its orbital plane1. The yearly mean amplitude of the diurnal variation should then have a maximum for primary particles having asymptotic directions approximately parallel to the equatorial plane. It should have a minimum for primaries with asymptotic directions parallel to the Earth's axis of rotation. For an experimental study of the relative magnitude of the amplitudes in these directions, it is necessary to record the variations of cosmic-ray intensity with inclined counter telescopes. However, it is difficult to gain access to both directions at one and the same point on the Earth's surface.
Dyring Eric
Lindgrén Stig
Sandström Arne Eld
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