Identifying the Driver of Pulsating Aurora using THEMIS

Details Identifying the Driver of Pulsating Aurora using THEMIS Identifying the Driver of Pulsating Aurora using THEMIS

Dec 2010

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010agufmsm14b..02b&link_type=abstract

American Geophysical Union, Fall Meeting 2010, abstract #SM14B-02

Physics

[2704] Magnetospheric Physics / Auroral Phenomena, [2716] Magnetospheric Physics / Energetic Particles: Precipitating, [2772] Magnetospheric Physics / Plasma Waves And Instabilities, [2790] Magnetospheric Physics / Substorms

Scientific paper

Pulsating aurora (PA), a spectacular emission that appears as blinking of upper atmospheric optical emissions in the polar region, is known to be excited by modulated, downward-streaming electrons. In spite of its distinctive features, the identification of the driver of the electron precipitation has been a long-standing problem. Using coordinated satellite and ground-based all-sky imager observations from the THEMIS mission, we provide direct evidence that a naturally-occurring electromagnetic wave, lower band chorus, can drive pulsating aurora. Almost one-to-one correlation between chorus amplitude observed on THEMIS and pulsating aurora luminosity in the ionosphere was obtained over only a single auroral patch and the correlation coefficient outside this area diminishes quickly with increasing distance, demonstrating a clear link between the two phenomena. Magnetic field line mapping has been a problematic issue in magnetosphere-ionosphere coupling studies. However, PA observations such as these shown in the present study provide a unique opportunity to identify the footprint of the magnetic field line threading a given spacecraft to a precision within an auroral patch size (<~100 km) and possibly even down to a few pixels (~10 km). Because the waves at a given equatorial location in space correlate with a single pulsating auroral patch in the upper atmosphere, our findings can also be used to trace the magnetic field line with much higher accuracy than previous magnetic field models.

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