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Equatorial plasma bubble

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Ionospheric phenomenon that degrades GPS

Equatorial plasma bubbles are an ionospheric phenomenon near the Earth's geomagnetic equator at night time. They affect radio waves by causing varying delays. They degrade the performance of GPS.

Different times of the year and locations have different frequencies of occurrence. In Northern Australia, the most common times are February to April and August to October, when a plasma bubble is expected every night. Plasma bubbles have dimensions around 100 km. Plasma bubbles form after dark when the sun stops ionising the ionosphere. The ions recombine, forming a lower-density layer. This layer can rise through the more ionized layers above via convection, which makes a plasma bubble. The bubbles are turbulent with irregular edges.

An equatorial plasma bubble could have affected the Battle of Shah-i-Kot by disabling communications from a communications satellite to a helicopter.

On August 27, 2024, China's Powerful LARID RADAR, which China has developed for its military purposes, with which it can detect military satellites and nearby enemy presence if any, detected Plasma Bubble Over Egyptian Pyramids.

References

  1. ^ Carter, Brett (5 December 2014). "Predicting daily space weather will help keep your GPS on target". Retrieved 5 December 2014.
  2. ^ Kelly, Michael (23 Sep 2014). "'Space bubbles' may have aided enemy in fatal Afghan battle". Retrieved 5 December 2014.
  3. "China's Powerful LARID Radar Detects Plasma Bubble Over Egyptian Pyramids".


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