Space has a hostile radiation environment that increases the risk of cancers in humans and malfunctions in spacecraft electronics. The types of space radiation of primary concern are: <ul> <li> Galactic Cosmic Rays from outside our solar system generated by supernovae and other phenomena; </li> <li> Solar Energetic Particles produced by the Sun during intense and sporadic bursts of activity; and </li> <li> Trapped Radiation: energetic particles confined by Earth's magnetic field, usually comprising an inner belt of mostly high energy protons and an outer belt dominated by lower energy electrons and plasma. </li> </ul> Understanding the space radiation environment for a particular mission profile is becoming increasingly important. Commercial off-the-shelf electronic components that aren't resilient to space radiation are now prevalent. Longer duration missions to cislunar space, Mars, and beyond
https://amentum.spaceSpace has a hostile radiation environment that increases the risk of cancers in humans and malfunctions in spacecraft electronics. The types of space radiation of primary concern are: <ul> <li> Galactic Cosmic Rays from outside our solar system generated by supernovae and other phenomena; </li> <li> Solar Energetic Particles produced by the Sun during intense and sporadic bursts of activity; and </li> <li> Trapped Radiation: energetic particles confined by Earth's magnetic field, usually comprising an inner belt of mostly high energy protons and an outer belt dominated by lower energy electrons and plasma. </li> </ul> Understanding the space radiation environment for a particular mission profile is becoming increasingly important. Commercial off-the-shelf electronic components that aren't resilient to space radiation are now prevalent. Longer duration missions to cislunar space, Mars, and beyond
https://amentum.space