Abstract
Whistler mode waves play a major role in regulating the lifetime of trapped electrons in the Earth’s radiation belts. Specifically, interaction with whistler mode hiss waves is one of the mechanisms that maintains the slot region between the inner and outer radiation belts. The generation mechanism of hiss is a topic still under debate with at least three prominent theories present in the literature. Lightning generated whistlers in their ducted or non-ducted modes are considered to be one of the possible sources of hiss. We present a study of new observations from the Radio Receiver Instrument (RRI) on the Enhanced Polar Outflow Probe (ePOP: also known as SWARM-E). RRI consists of two orthogonal dipole antennas, which enables polarization measurements, when the satellite boresight is parallel to the geomagnetic field. Here we present 105 ePOP - RRI events from 2014–2018, in which lightning whistlers(75) and hiss waves(39) were observed. In more than 50% of those whistler observations, hiss found to co-exist. Moreover, the whistler observations are correlated with observations of wave power at the lower-hybrid resonance. The observations and a whistler mode ray-tracing study suggest that multiple-hop lightning induced whistlers can be a source of hiss and plasma instabilities in the magnetosphere.
Highlights
Whistler mode waves play a dominant role in Earth’s radiation belt energy dynamics
We performed a raytracing study to observe the dispersion of whistlers into hiss
In this work we presented new VLF observations by the Radio Receiver Instrument (RRI) on the Enhanced Polar Outflow Probe (e-POP or SWARM-E)
Summary
Whistler mode waves play a dominant role in Earth’s radiation belt energy dynamics. lightning generated whistlers, chorus and hiss have been topics of interest for the scientific research community for more than half a century [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16]. In early work it was proposed that hiss is generated by lightning generated whistlers [6,22,23,24] This mechanism was supported by satellite observations as well as raytracing studies. Another proposed concept posits that hiss is generated by the same nonlinear process from pitch angle anisotropy as chorus [8,25]. The third, and perhaps most widely accepted theory today, is that hiss is sourced from chorus waves that have undergone multiple magnetospheric reflections and propagated into the plasmasphere. This notion has been supported by observational evidence and raytracing
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