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#12a.  The Inner Radiation Belt


  (Files in red–history)

           Index

10. Trapped Motion

    10H. Einstein, 1910

10a. Particle Drift

11. Explorers 1/3

  11a. Geiger Counter

12. Rad. Belts

    12H. Argus 1958

12a. Inner Belt

12b. Outer Belt

13. Fast Particles

14. Synch. Orbit

15. Energy

        The inner radiation belt, discovered by Explorers 1 and 3, owes its existence to the extraordinary stability of trapped orbits near the Earth. It is a by-product of the cosmic radiation, which by itself has a rather low intensity: the amount of energy received by Earth from cosmic rays is comparable to what it receives from starlight. Only by accumulating particles over the span of years does the inner belt reach its high intensity.

        Cosmic rays are fast positive ions, bombarding Earth from all directions, probably filling our entire galaxy. Though their numbers are small, the energy of each particle is quite high, so that when these ions smash into nuclei of atmospheric gases, fragments go flying off in different directions, some of them short-lived particles created by the collision. Most such fragments are absorbed by the atmosphere or by the ground, but a few are also splattered upwards, out of the atmosphere and into space.

        If these are electrically charged, e.g. electrons or ions, they will often end up trapped by the Earth's magnetic field. None of these however lasts very long, since trapped orbits which rise from the atmosphere must sooner or later enter the atmosphere again.


    Some of the fragments are however neutrons, particles similar to protons but without the electric charge; neutrons make up about half the weight of a typical atomic nucleus. Having no electric charge, neutrons are not affected by the Earth's magnetic field, and moving far too fast for gravity to hold them back, they usually escape into space.

    The free neutron is however radioactive: within about 10 minutes it breaks up into a proton, which captures most of the energy, an electron and am essentially massless neutrino. Ten minutes is a fairly long time for a fast particle, time enough for many neutrons to get halfway to Mars. However, decay times are spread out statistically, and while 10 minutes is the average, a few neutrons decay quite soon, while still inside the Earth's magnetic field. The energetic protons which then materialize are grabbed by the Earth's magnetic field, often on trapped orbits which do not return to the atmosphere, in which the proton can stay trapped for a rather long time. That, it is believed, is how the inner belt arises.


Questions from Users:
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                      ***     Radiation Belt and Brazil

Last updated 25 November 2001
Re-formatted 3-12-06