Lightning Generated Whistler Amplitudes Measured by the Van Allen Probes
Abstract
This talk will show a statistical analysis of both electric and magnetic field wave amplitudes of very low frequency lightning generated whistlers (LGWs) based on the equivalent of 11.5 years of observations made by the Van Allen Probes. We complement this analysis with data from the ground based World Wide Lightning Location Network (WWLLN) to explore differences between satellite and ground based measurements. We will discuss how LGW mean amplitudes were generally found to be low compared with other whistler mode waves event though there exists extreme events (1 out of 5,000) that can reach 100 pT and contribute strongly to the mean power below L = 2. We will reveal a region of low wave amplitude existing below L=2 thanks to the denser dayside ionosphere, which prevents the intense equatorial lightning VLF waves from propagating through it. Below L = 1.5 at all MLT, LGW amplitudes are found to be weak while the ground level lightning activity is maximal. This suggests a difficulty of lightning VLF waves to penetrate / propagate / remain at low L shells, certainly due at least to the denser ionosphere during daytime. On the contrary, the mean LGW magnetic power (or RMS) remains nearly constant with respect to L shell. We will explain that this is due to strong to extreme LGW that dominate the wave mean power to the point of compensating the decay of LGW occurrence at low L shell. Even though extreme LGW were found to be very powerful, particularly at low L and during night, the mean electric/magnetic power remains low compared with other whistler waves. This implies LGW resonant effects on electrons are consequently long term effects that contribute to "age" trapped inner belt electron populations.
- Publication:
-
AGU Fall Meeting Abstracts
- Pub Date:
- December 2020
- Bibcode:
- 2020AGUFMSM007..07F
- Keywords:
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- 2716 Energetic particles: precipitating;
- MAGNETOSPHERIC PHYSICS;
- 2768 Plasmasphere;
- MAGNETOSPHERIC PHYSICS;
- 2772 Plasma waves and instabilities;
- MAGNETOSPHERIC PHYSICS;
- 2774 Radiation belts;
- MAGNETOSPHERIC PHYSICS