Analysis of Plasma Bubble Signatures in the Ionosphere

Abstract

Plasma bubbles are large scale structures of depleted plasma density in Earth's ionosphere that disrupt radio and satellite communications, to include global navigation satellite systems. This study used the Ionospheric Forecast Model (IFM) to analyze a ected look angles and total electron content (TEC) di erences due to plasma bubbles of various sizes for 27 geophysical conditions consisting of di erent seasons and levels of solar and geomagnetic activity at 421 GPS ground stations worldwide. Overall, di erent geographic locations and plasma bubble con gurations produced di erent a ected look angle pro les. Bigger plasma bubbles, larger density depletion factors, higher levels of solar activity and the equinoctial months resulted in greater slant TEC di erences and, hence, greater communication problems. The results of this study not only improved the accuracy of the Air Force's operational ionospheric model and space weather forecasting capability, but also provided military leaders with a clear picture of the expected plasma bubble impacts to communications reliability when planning and executing military operations from the strategic to tactical level.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 2011

Accession Number

ADA538357

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