Ionosphere

atmospheric layer of Earth

The ionosphere (/ˈɒnəˌsfɪər/)[1][2] is the ionized part of the upper atmosphere of Earth. Closest to the surface of Earth, the ionosphere is about 48 km (30 mi) away. It goes on up to 965 km (600 mi) above sea level.[3]

Relationship of the atmosphere and ionosphere

The outer limits of the ionosphere

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The plasma fountain (or polar wind) in the Earth's atmosphere. The drawing shows bright yellow (next to the green colored area). That orange area is supposed to show ions (that come from gas in the atmosphere) that are escaping from the atmosphere (into space). The escape of those oxygen ions and hydrogen ions and helium ions, are part of the plasma fountain effect. The atmosphere (including the ionosphere) near the North pole and South pole, goes higher above the surface of Earth, than in other places. The drawing shows the area near the North pole, and the plasma fountain. The drawing does not show the area near the South pole (and gas escaping from the atmosphere there).[4]

Much research has been done on Plasma fountain (or Polar wind).[5] Satellites have been used (since the 1960's), when doing research.[5] Some of them are ISIS-2, Dynamics Explorer, the Akebono satellite, and the Polar satellite.[5] That research has covered different places above the surface of Earth.[5] Those places are at different altitudes and latitudes.[5] Research has also been done at different times of [one or more] solar cycles.[5]

In 2007, a research paper said that Plasma fountain (or Polar wind) is "an ambipolar outflow of thermal plasma from the [the ionosphere near the North pole and South pole, or] high-latitude ionosphere"; That plasma moves from the ionosphere to the magnetosphere.[6]


Decades of research has led to a body of scientific work; A thing that it says, is that there is at least one electric field on the outer limits (of the ionosphere).

The electric field gets called different things, such as

  • polarization field (and polarization electric field)
  • ambipolar field (and ambipolar electric field)

Causes of the plasma fountain (or polar wind)

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About 30 years of research [as of the 2020s], says that the cause of the plasma fountain (or polar wind) is ambipolar outflow of thermal plasma: ion acceleration by a polarization electric field at high altitudes.[7]: 451  The polarization electric field or ambipolar electric field was originally proposed in the 1920s for ionized stellar atmospheres.[8]: 1927 

The field is very small but, unlike other forces, it points away from gravity.[8]: 1927  In low-density plasma at high altitude (above Earth), it overwhelms gravity for light ions.

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Sources

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  1. Jones, Daniel (2003) [1917]. "ionosphere". In Peter Roach; James Hartmann; Jane Setter (eds.). English Pronouncing Dictionary. Cambridge: Cambridge University Press. ISBN 978-3-12-539683-8.
  2. "Ionosphere". Merriam-Webster Dictionary.
  3. Zell, Holly (2 March 2015). "Earth's Atmospheric Layers". NASA. Retrieved 2020-10-23.
  4. Plasma fountain Source, press release: Carlowicz, Mike; "Solar Wind Squeezes Some of Earth's Atmosphere into Space", December 1998
  5. 5.0 5.1 5.2 5.3 5.4 5.5 Yau, Andrew W.; Abe, Takumi; Peterson, W. K. (2007-11-01). "The polar wind: Recent observations". Journal of Atmospheric and Solar-Terrestrial Physics. Recent Advances in the Polar Wind Theories and Observations. 69 (16): 1936–1983. Bibcode:2007JASTP..69.1936Y. doi:10.1016/j.jastp.2007.08.010. ISSN 1364-6826.
  6. https://www.sciencedirect.com/science/article/abs/pii/S1364682607002416. Retrieved 2024-10-11
  7. Cite error: The named reference SchunkNagy2000 was used but no text was provided for refs named (see the help page).
  8. 8.0 8.1 Cite error: The named reference Lemaire2007 was used but no text was provided for refs named (see the help page).


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