heliopause

heliopause
/hee"lee euh pawz'/, n. Astron.
the boundary of the heliosphere.
[1970-75; HELIO- + PAUSE]

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Boundary between the heliosphere
the teardrop-shaped region around the Sun created by the solar wind and filled with solar magnetic fields and outward-moving gas
and the zone of transition to the interstellar medium.

Its tail is estimated to reach 50–100 astronomical units from the Sun, encompassing the orbits of all the major planets. Its shape changes, influenced by a wind of interstellar gas produced by the Sun's motion through it.

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      boundary of the heliosphere, the teardrop-shaped region around the Sun that is filled with solar magnetic fields (magnetic field) and the outward-moving solar wind consisting of protons (proton) and electrons (electron). Nearer the Sun than the heliopause lies the heliosheath, a region of transition where the solar wind slows to subsonic speeds, that is, slower than the speed with which disturbances travel through the interstellar medium. The tail of the heliopause is estimated to be between 110 and 170 astronomical units (astronomical unit) (AU;17 and 26 billion km [10 and 16 billion miles]) from the Sun. The shape of the heliopause fluctuates and is influenced by a wind of interstellar gas caused by the Sun's motion through space. The orbits of all the major planets (planet), including Earth's (Earth), lie well within the heliopause. No satellite has yet reached the heliopause, although the Voyager 1 and 2 probes launched in 1977 are the closest to it at distances from the Sun of 105 and 85 astronomical units (16 and 13 billion km [10 and 8 billion miles]), respectively. (Voyager 1 and 2 crossed into the heliosheath at distances from the Sun of 94 and 84 AU in 2004 and 2007, respectively.) What is known about the heliopause is deduced by its effects on cosmic-ray (cosmic ray) particles coming into the solar system after passing through it and by the radio emission generated when material thrown off by the Sun in coronal mass ejections crosses it.

Harold Zirin
 

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Universalium. 2010.

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