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Aeronomy & Astrophysics
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Dr. Vladimir Papitashvili
Program Manager
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A-108-S
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NSF/OPP Award 00-93381
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Station:
South Pole Station
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RPSC POC:
Charles Kaminski
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Research Site(s):
South Pole Station
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Dates in Antarctica:
Maintenance in January, instruments operate continuously
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A VLF beacon transmitter at South Pole (2001-2004)
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Photo not available.
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Deploying Team Members:
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Evans Paschal
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Research Objectives:
Relativistic electrons -- measured at geosynchronous orbit with energies of more than 300 kiloelectron volts -- appear to fluctuate in response to substorm and solar activity. During such events, these highly energetic electrons can penetrate as low as 30 to 40 kilometers above the Earth's surface. At that altitude, they can wreak havoc in the atmosphere, ionizing chemical species, creating X-rays, and perhaps influencing the chemistry that produces ozone.
This is a three-year project to establish and operate a very-low-frequency (VLF) beacon transmitter at South Pole to measure solar effects on the mesosphere and lower ionosphere. The extent of relativistic electron precipitation can be calculated from variations in amplitude and phase of the VLF signals at different antarctic stations. The transmitter will also produce other data as well, on solar proton events, relativistic electron precipitation from Earth's outer radiation belts, and on the Joule heating components of high-latitude/ polar-cap magnetosphere/ionosphere coupling processes.
VLF data from the South Pole beacon provides a valuable complement to two other efforts: The southern hemisphere coherent HF radar network, Super Dual Auroral Network (SUPERDARN), and the Solar Anomalous and Magnetospheric Particle Explorer (SAMPEX), ongoing satellite-based measurements of trapped and precipitating high-energy electrons at high and low altitudes.
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