Ionosphere-Thermosphere Storm Probes

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Ionosphere-Thermosphere Storm Probes
Mission typeTwo Earth orbiters investigating the ionosphere and thermosphere
Operator NASA
Orbital parameters
Reference system Geocentric
Inclination 60°
 

The Ionosphere-Thermosphere Storm Probes (I-TSP) is a NASA mission which will study the ionosphere and the thermosphere. This mission is part of the Living With a Star program, the second mission in a pair of geospace missions. The first mission is the Radiation Belt Storm Probes, which were launched in August 2012.

Contents

Mission

Like the Radiation Belt Storm Probes, the I-TSP will be a twin spacecraft mission. The mission is to study distributions of ionospheric and thermospheric densities, geomagnetic disturbances, and ionospheric irregularities. This mission relates to the Sun and solar storms in that it studies the effects of solar storms on geospace. [1] This mission can save astronauts and satellites.

Goals

The Ionosphere-Thermosphere Storm Probes mission has two goals:

  1. Determine the effects of solar variability on the global-scale behavior of ionospheric electron density
  2. Determine the solar and geospace causes of small scale ionospheric irregularities

See also

Related Research Articles

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Laboratory for Atmospheric and Space Physics

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The thermosphere is the layer in the Earth's atmosphere directly above the mesosphere and below the exosphere. Within this layer of the atmosphere, ultraviolet radiation causes photoionization/photodissociation of molecules, creating ions; the thermosphere thus constitutes the larger part of the ionosphere. Taking its name from the Greek θερμός meaning heat, the thermosphere begins at about 80 km (50 mi) above sea level. At these high altitudes, the residual atmospheric gases sort into strata according to molecular mass. Thermospheric temperatures increase with altitude due to absorption of highly energetic solar radiation. Temperatures are highly dependent on solar activity, and can rise to 2,000 °C (3,630 °F) or more. Radiation causes the atmosphere particles in this layer to become electrically charged particles, enabling radio waves to be refracted and thus be received beyond the horizon. In the exosphere, beginning at about 600 km (375 mi) above sea level, the atmosphere turns into space, although, by the judging criteria set for the definition of the Kármán line, the thermosphere itself is part of space.

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Mei-Ching Fok NASA scientist and researcher

Mei-Ching Hannah Fok is a Planetary Scientist at the Goddard Space Flight Center. She was awarded the NASA Exceptional Scientific Achievement Medal in 2011 and elected a Fellow of the American Geophysical Union in 2019. She has worked on the IMAGE, Van Allen Probes and TWINS missions.

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References

  1. Future Directions in Solar and Space Physics. The National Academics Press. 2004. doi:10.17226/11188. ISBN   978-0-309-59271-0 . Retrieved 2007-08-14.