PSP Bibliography


  • Clicking on the DOI link will open a new window with the original bibliographic entry from the publisher.
  • Clicking on a single author will show all publications by the selected author.
  • Clicking on a single keyword, will show all publications by the selected keyword.

Unexpected energetic particle observations near the Sun by Parker Solar Probe and Solar Orbiter

AuthorMalandraki, O.~E.; Cohen, C.~M.~S.; Giacalone, J.; Mitchell, J.~G.; Chhiber, R.; McComas, D.~J.; iguez-Pacheco, Rodr\; Wimmer-Schweingruber, R.~F.; Ho, G.~C.;
KeywordsParker Data Used
AbstractSolar energetic particles (SEPs) from suprathermal (few keV) up to relativistic (\ensuremath\simfew GeV) energies are accelerated at the Sun in association with solar flares and coronal mass ejection-driven shock waves. Although our knowledge of the origin, acceleration, and transport of these particles from close to the Sun through the interplanetary medium has advanced dramatically in the last 40 years, many puzzles have still remained unsolved due to the scarcity of in situ measurements well inside 1 AU. Furthermore, energetic particle intensity enhancements associated with high-speed streams or stream interaction regions (SIRs) have been routinely observed at interplanetary spacecraft near Earth orbit since the 1960s. Since only a small sample of SIR events were observed by the Helios spacecraft inside 1 AU, additional observations well inside 1 AU were also needed to further investigate the energization and transport effects of SIR-associated ions and to compare with expectations from contemporary SIR-associated particle acceleration and transport models and theories. The Solar Orbiter (SolO) and Parker Solar Probe (PSP) pioneering missions have been providing unprecedented measurements of energetic particles in the near-Sun environment. This review presents the unexpected observations of SEP and SIR-related ion events as measured by the PSP/IS\ensuremath\odotIS and SolO/EPD experiments, which revealed surprises that challenge our understanding.
Year of Publication2023
JournalPhysics of Plasmas
Number of Pages050501
Date Publishedmay