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Published October 10, 2020 | Published
Journal Article Open

Small Electron Events Observed by Parker Solar Probe/IS⊙IS during Encounter 2

Mitchell, J. G. ORCID icon
de Nolfo, G. A. ORCID icon
Hill, M. E. ORCID icon
Christian, E. R. ORCID icon
McComas, D. J. ORCID icon
Schwadron, N. A. ORCID icon
Wiedenbeck, M. E. ORCID icon
Bale, S. D. ORCID icon
Case, A. W. ORCID icon
Cohen, C. M. S. ORCID icon
Joyce, C. J. ORCID icon
Kasper, J. C. ORCID icon
Labrador, A. W. ORCID icon
Leske, R. A. ORCID icon
MacDowall, R. J. ORCID icon
Mewaldt, R. A. ORCID icon
Mitchell, D. G. ORCID icon
Pulupa, M. ORCID icon
Richardson, I. G. ORCID icon
Stevens, M. L. ORCID icon
Szalay, J. R. ORCID icon

Abstract

The current understanding of the characteristics of solar and inner heliospheric electron events is inferred almost entirely from observations made by spacecraft located at 1 astronomical unit (au). Previous observations within 1 au of the Sun, by the Helios spacecraft at ~0.3–1 au, indicate the presence of electron events that are not detected at 1 au or may have merged during transport from the Sun. Parker Solar Probe's close proximity to the Sun at perihelion provides an opportunity to make the closest measurements yet of energetic electron events. We present an overview of measurements of electrons with energies between ~17 keV and ~1 MeV made by the Parker Solar Probe Integrated Science Investigation of the Sun (IS⊙IS) instrument suite during Encounter 2 (2019 March 31–April 10 with perihelion of ~0.17 au), including several small electron events. We examine these events in the context of the electromagnetic and solar wind environment measured by the FIELDS and SWEAP instruments on Parker Solar Probe. We find most of these electron enhancements to be associated with type III radio emissions that reach the local plasma frequency and one enhancement that appears to be primarily associated with abrupt changes in the local magnetic field. Together, these associations suggest that these are indeed the first measurements of energetic electron events within 0.2 au.

Additional Information

© 2020. The Author(s). Original content from this work may be used under the terms of the Creative Commons Attribution 4.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI. Received 2020 May 20; revised 2020 July 24; accepted 2020 August 24; published 2020 October 8. We wish to acknowledge the support of NASA's Parker Solar Probe grant NNN06AA01C. We thank the Parker Solar Probe IS⊙IS, FIELDS, and SWEAP teams, including the engineers, technicians, administrators, and scientists, who developed the instruments used in this study. The IS⊙IS data and visualization tools are available to the community at: https://spacephysics.princeton.edu/missions-instruments/isois; data are also available via the NASA Space Physics Data Facility (https://spdf.gsfc.nasa.gov/).

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