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Experiment for Space Radiation Analysis, Energetic Charged Particle Sensor: a Charged Particle Telescope with Novel Sensors for Measuring Earth's Radiation Belts

J. Barney, Orlando Garduno, Caleb Roecker, Martin Kroupa, Michael Holloway, R. Schirato, Carlos Maldónado, Daniel Arnold, B. Larsen, Zachary Miller, K. Smith, Daniel Wakeford

20222022 IEEE Aerospace Conference (AERO)18 citationsDOI

Abstract

The experiment for space radiation analysis is an upcoming project for Los Alamos National Laboratory. This 12U CubeSat will be placed in a geosynchronous transfer orbit to make measurements of the charged particle populations in the radiation belts. Currently, there are no data from CubeSats operating in the radiation belts, and although the GTOsat will soon be operating in the radiation belts, this is an active space for CubeSat development. The energetic charged particle sensor on board the experiment for space radiation analysis is a particle telescope which will test and mature new technologies for use in space missions. The energy range of interest for the energetic charged particle sensor is from 100 keV to 1000 MeV for protons, and from 100 keV to 20 MeV for electrons.

Topics & Concepts

Particle radiationCubeSatVan Allen radiation beltPhysicsCharged particleGeosynchronous orbitRadiationParticle detectorRange (aeronautics)Health threat from cosmic raysSpace environmentTelescopeAerospace engineeringNuclear physicsMagnetosphereAstronomySatelliteIonSolar windEngineeringCoronal mass ejectionPlasmaQuantum mechanicsIonosphere and magnetosphere dynamicsSolar and Space Plasma DynamicsAstro and Planetary Science
Experiment for Space Radiation Analysis, Energetic Charged Particle Sensor: a Charged Particle Telescope with Novel Sensors for Measuring Earth's Radiation Belts | Litcius