Abstract:
A radiation transport suite has been used to simulate gamma-ray emissions produced in the X-ray Multi-Mirror Mission spacecraft by interactions of cosmic-rays and solar p...Show MoreMetadata
Abstract:
A radiation transport suite has been used to simulate gamma-ray emissions produced in the X-ray Multi-Mirror Mission spacecraft by interactions of cosmic-rays and solar protons. Their energy deposition in charge coupled device detectors is a significant source of background.
Published in: IEEE Transactions on Nuclear Science ( Volume: 43, Issue: 6, December 1996)
DOI: 10.1109/23.556857
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Energy Deposition ,
- X-ray Detector ,
- CCD Camera ,
- Background Sources ,
- Charge-coupled Device Detector ,
- Proton Interactions ,
- Response Function ,
- Emission Spectra ,
- Carbon Fiber ,
- Heavy Ions ,
- Radiative Transfer ,
- Gamma Rays ,
- Proton Beam ,
- Bremsstrahlung ,
- Gamma Spectrometry ,
- Solar Flares ,
- Solar Minimum ,
- Photon Spectrum ,
- Transmission Grating
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Energy Deposition ,
- X-ray Detector ,
- CCD Camera ,
- Background Sources ,
- Charge-coupled Device Detector ,
- Proton Interactions ,
- Response Function ,
- Emission Spectra ,
- Carbon Fiber ,
- Heavy Ions ,
- Radiative Transfer ,
- Gamma Rays ,
- Proton Beam ,
- Bremsstrahlung ,
- Gamma Spectrometry ,
- Solar Flares ,
- Solar Minimum ,
- Photon Spectrum ,
- Transmission Grating
