A Nano-satellite Mission to Study Charged Particle Precipitation from the Van Allen Radiation Belts caused due to Seismo-Electromagnetic Emissions

TL;DR

This paper presents a nano-satellite mission designed to measure charged particle fluxes in Low Earth Orbit to investigate the link between seismo-electromagnetic emissions and particle precipitation in the Van Allen belts, aiming to improve earthquake prediction.

Contribution

The paper introduces a novel nano-satellite mission equipped with a proton-electron detector to study the effects of seismo-electromagnetic emissions on radiation belts, providing new data for earthquake precursor research.

Findings

Data collection in progress for correlation analysis

Potential identification of seismo-electromagnetic signatures

Enhanced understanding of particle precipitation mechanisms

Abstract

In the past decade, several attempts have been made to study the effects of seismo-electromagnetic emissions - an earthquake precursor, on the ionosphere and the radiation belts. The IIT Madras nano-satellite (IITMSAT) mission is designed to make sensitive measurements of charged particle fluxes in a Low Earth Orbit to study the nature of charged particle precipitation from the Van Allen radiation belts caused due to such emissions. With the Space-based Proton Electron Energy Detector on-board a single nano-satellite, the mission will attempt to gather statistically significant data to verify possible correlations with seismo-electromagnetic emissions before major earthquakes.