Session
Poster Session 1
Location
Salt Palace Convention Center, Salt Lake City, UT
Abstract
As space missions venture beyond Earth's magnetic field, spacecraft face elevated risks from solar energetic particles (SEPs) and galactic cosmic rays (GCRs). Taiwan's first lunar payload—the Deep Space Radiation Probe (DSRP)—was developed to measure radiation dose, dose rate, and SEU rates during Earth–Moon transit. However, flight data revealed limitations in SEU detection and system operation. To address these issues and support CubeSat-class missions, the Compact Radiation Probe (CRP) was developed for the upcoming COSPAR-1 mission.
Document Type
Event
Enhancements and Improvements of the Radiation Probe - Compact Radiation Probe (CRP)
Salt Palace Convention Center, Salt Lake City, UT
As space missions venture beyond Earth's magnetic field, spacecraft face elevated risks from solar energetic particles (SEPs) and galactic cosmic rays (GCRs). Taiwan's first lunar payload—the Deep Space Radiation Probe (DSRP)—was developed to measure radiation dose, dose rate, and SEU rates during Earth–Moon transit. However, flight data revealed limitations in SEU detection and system operation. To address these issues and support CubeSat-class missions, the Compact Radiation Probe (CRP) was developed for the upcoming COSPAR-1 mission.
