Add to ORKGAt very strong shock passages, protons (and other ions) may be accelerated at or near a spacecraft resulting in substantial particle intensities increases. Such events may be a significant space weather hazard, yet we are still unable to accurately forecast their arrival time or the magnitude of the particle increase. Here, we classify the >10 MeV proton response (observed by ACE/SIS) to passing shocks (identified by ACE/MAG, ACE/SWEPAM, SOHO/PM), examine heavy ion properties, and relate them to the measured shock parameters in an effort to further our understanding of these events and our ability to predict them
We use simultaneous measurements from the Wind and ACE spacecraft to determine the spatial propertie...
An increase in the intensity of energetic particles associated with the passage of an interplanetary...
[1] Evidence now exists which suggests that in large solar energetic particle (SEP) events, particle...
At very strong shock passages, protons (and other ions) may be accelerated at or near a spacecraft r...
At very strong shock passages, protons (and other ions) may be accelerated at or near a spacecraft r...
Energetic particles accelerated at interplanetary shocks can result in an increased radiation dose f...
Energetic particles accelerated at interplanetary shocks can result in an increased radiation dose f...
We analyze periods with elevated >40 MeV proton intensities observed near Earth over a time span of ...
We analyze periods with elevated >40 MeV proton intensities observed near Earth over a time span of ...
We analyze periods with elevated >40 MeV proton intensities observed near Earth over a time span of ...
Context. Interplanetary collisionless shocks are known to be sources of energetic charged particles ...
Context. Interplanetary collisionless shocks are known to be sources of energetic charged particles ...
An energetic proton event was observed at a geosynchronous orbit nearly at the same time as an inter...
Abstract. The solar energetic particles (SEPs) of consequence to space weather are accelerated at sh...
Abstract. Characteristics of both interplanetary (IP) shocks and associated energetic particle distr...
We use simultaneous measurements from the Wind and ACE spacecraft to determine the spatial propertie...
An increase in the intensity of energetic particles associated with the passage of an interplanetary...
[1] Evidence now exists which suggests that in large solar energetic particle (SEP) events, particle...
At very strong shock passages, protons (and other ions) may be accelerated at or near a spacecraft r...
At very strong shock passages, protons (and other ions) may be accelerated at or near a spacecraft r...
Energetic particles accelerated at interplanetary shocks can result in an increased radiation dose f...
Energetic particles accelerated at interplanetary shocks can result in an increased radiation dose f...
We analyze periods with elevated >40 MeV proton intensities observed near Earth over a time span of ...
We analyze periods with elevated >40 MeV proton intensities observed near Earth over a time span of ...
We analyze periods with elevated >40 MeV proton intensities observed near Earth over a time span of ...
Context. Interplanetary collisionless shocks are known to be sources of energetic charged particles ...
Context. Interplanetary collisionless shocks are known to be sources of energetic charged particles ...
An energetic proton event was observed at a geosynchronous orbit nearly at the same time as an inter...
Abstract. The solar energetic particles (SEPs) of consequence to space weather are accelerated at sh...
Abstract. Characteristics of both interplanetary (IP) shocks and associated energetic particle distr...
We use simultaneous measurements from the Wind and ACE spacecraft to determine the spatial propertie...
An increase in the intensity of energetic particles associated with the passage of an interplanetary...
[1] Evidence now exists which suggests that in large solar energetic particle (SEP) events, particle...