Understanding the properties, wave drivers, and impacts of electron microburst precipitation: Current understanding and critical knowledge gaps

Sadie S Elliott; Aaron W Breneman; Christopher Colpitts; Jacob Bortnik; Allison Jaynes; Alexa Halford; Mykhaylo Shumko; Lauren Blum; Lunjin Chen; Ashley Greeley; Drew Turner

doi:10.3389/fspas.2022.1062422

Understanding the properties, wave drivers, and impacts of electron microburst precipitation: Current understanding and critical knowledge gaps

Sadie S Elliott, Aaron W Breneman, Christopher Colpitts, Jacob Bortnik, Allison Jaynes, Alexa Halford, Mykhaylo Shumko, Lauren Blum, Lunjin Chen, Ashley Greeley, Drew Turner

Physics and Astronomy (Twin Cities)

Research output: Contribution to journal › Review article › peer-review

5 Scopus citations

Abstract

Microbursts are impulsive (<1s) injections of very energetic to relativistic electrons (energies from a few keV to MeV) into Earth’s atmosphere. They are important because they may represent a major loss process for the outer radiation belt (Ripoll and Claudepierre and Ukhorskiy and Colpitts and Li and Fennell and Crabtree, J. Geophys. Res. Space Physics, 2020, 125–e2019JA026735). Understanding and quantifying the underlying causes and consequences plus relative importance of microburst precipitation represent outstanding questions in radiation belt physics and may have significant implications ranging from space weather to atmospheric chemistry. Chorus waves are the likely dominant cause of microburst precipitation, but important questions remain regarding the exact nature of the resonance generating the microbursts and the overall importance of the precipitation. These important questions are limited by lack of systematic coordination of simultaneous observations of causative waves in the magnetosphere and resulting precipitating particles at low altitudes. Multi-spacecraft missions dedicated to answering these questions, themselves required to make progress in radiation belt physics, are critical.

Original language	English (US)
Article number	1062422
Journal	Frontiers in Astronomy and Space Sciences
Volume	9
DOIs	https://doi.org/10.3389/fspas.2022.1062422
State	Published - Nov 3 2022

Bibliographical note

Funding Information:
Work at the University of Minnesota and NASA Goddard was supported by the NASA Heliophysics Supporting Research program NNH18ZDA001N-HSR award 80NSSC19K0842. AH and LB were in part supported by the Space Precipitation Impacts project at Goddard Space Flight Center through the Heliophysics Internal Science Funding Model.

Publisher Copyright:
Copyright © 2022 Elliott, Breneman, Colpitts, Bortnik, Jaynes, Halford, Shumko, Blum, Chen, Greeley and Turner.

Keywords

chorus
microbursts
precipitation
radiation belts
wave-particle interactions

Publisher link

10.3389/fspas.2022.1062422

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Elliott, S. S., Breneman, A. W., Colpitts, C., Bortnik, J., Jaynes, A., Halford, A., Shumko, M., Blum, L., Chen, L., Greeley, A., & Turner, D. (2022). Understanding the properties, wave drivers, and impacts of electron microburst precipitation: Current understanding and critical knowledge gaps. Frontiers in Astronomy and Space Sciences, 9, Article 1062422. https://doi.org/10.3389/fspas.2022.1062422

Elliott, SS, Breneman, AW, Colpitts, C, Bortnik, J, Jaynes, A, Halford, A, Shumko, M, Blum, L, Chen, L, Greeley, A & Turner, D 2022, 'Understanding the properties, wave drivers, and impacts of electron microburst precipitation: Current understanding and critical knowledge gaps', Frontiers in Astronomy and Space Sciences, vol. 9, 1062422. https://doi.org/10.3389/fspas.2022.1062422

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abstract = "Microbursts are impulsive (<1s) injections of very energetic to relativistic electrons (energies from a few keV to MeV) into Earth{\textquoteright}s atmosphere. They are important because they may represent a major loss process for the outer radiation belt (Ripoll and Claudepierre and Ukhorskiy and Colpitts and Li and Fennell and Crabtree, J. Geophys. Res. Space Physics, 2020, 125–e2019JA026735). Understanding and quantifying the underlying causes and consequences plus relative importance of microburst precipitation represent outstanding questions in radiation belt physics and may have significant implications ranging from space weather to atmospheric chemistry. Chorus waves are the likely dominant cause of microburst precipitation, but important questions remain regarding the exact nature of the resonance generating the microbursts and the overall importance of the precipitation. These important questions are limited by lack of systematic coordination of simultaneous observations of causative waves in the magnetosphere and resulting precipitating particles at low altitudes. Multi-spacecraft missions dedicated to answering these questions, themselves required to make progress in radiation belt physics, are critical.",

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note = "Funding Information: Work at the University of Minnesota and NASA Goddard was supported by the NASA Heliophysics Supporting Research program NNH18ZDA001N-HSR award 80NSSC19K0842. AH and LB were in part supported by the Space Precipitation Impacts project at Goddard Space Flight Center through the Heliophysics Internal Science Funding Model. Publisher Copyright: Copyright {\textcopyright} 2022 Elliott, Breneman, Colpitts, Bortnik, Jaynes, Halford, Shumko, Blum, Chen, Greeley and Turner.",

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AU - Elliott, Sadie S

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AU - Bortnik, Jacob

AU - Jaynes, Allison

AU - Halford, Alexa

AU - Shumko, Mykhaylo

AU - Blum, Lauren

AU - Chen, Lunjin

AU - Greeley, Ashley

AU - Turner, Drew

N1 - Funding Information: Work at the University of Minnesota and NASA Goddard was supported by the NASA Heliophysics Supporting Research program NNH18ZDA001N-HSR award 80NSSC19K0842. AH and LB were in part supported by the Space Precipitation Impacts project at Goddard Space Flight Center through the Heliophysics Internal Science Funding Model. Publisher Copyright: Copyright © 2022 Elliott, Breneman, Colpitts, Bortnik, Jaynes, Halford, Shumko, Blum, Chen, Greeley and Turner.

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N2 - Microbursts are impulsive (<1s) injections of very energetic to relativistic electrons (energies from a few keV to MeV) into Earth’s atmosphere. They are important because they may represent a major loss process for the outer radiation belt (Ripoll and Claudepierre and Ukhorskiy and Colpitts and Li and Fennell and Crabtree, J. Geophys. Res. Space Physics, 2020, 125–e2019JA026735). Understanding and quantifying the underlying causes and consequences plus relative importance of microburst precipitation represent outstanding questions in radiation belt physics and may have significant implications ranging from space weather to atmospheric chemistry. Chorus waves are the likely dominant cause of microburst precipitation, but important questions remain regarding the exact nature of the resonance generating the microbursts and the overall importance of the precipitation. These important questions are limited by lack of systematic coordination of simultaneous observations of causative waves in the magnetosphere and resulting precipitating particles at low altitudes. Multi-spacecraft missions dedicated to answering these questions, themselves required to make progress in radiation belt physics, are critical.

AB - Microbursts are impulsive (<1s) injections of very energetic to relativistic electrons (energies from a few keV to MeV) into Earth’s atmosphere. They are important because they may represent a major loss process for the outer radiation belt (Ripoll and Claudepierre and Ukhorskiy and Colpitts and Li and Fennell and Crabtree, J. Geophys. Res. Space Physics, 2020, 125–e2019JA026735). Understanding and quantifying the underlying causes and consequences plus relative importance of microburst precipitation represent outstanding questions in radiation belt physics and may have significant implications ranging from space weather to atmospheric chemistry. Chorus waves are the likely dominant cause of microburst precipitation, but important questions remain regarding the exact nature of the resonance generating the microbursts and the overall importance of the precipitation. These important questions are limited by lack of systematic coordination of simultaneous observations of causative waves in the magnetosphere and resulting precipitating particles at low altitudes. Multi-spacecraft missions dedicated to answering these questions, themselves required to make progress in radiation belt physics, are critical.

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Understanding the properties, wave drivers, and impacts of electron microburst precipitation: Current understanding and critical knowledge gaps

Abstract

Bibliographical note

Keywords

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