Fiber optic based technologies are relatively new to satellite applications, and are receiving considerable attention for planned applications in NASA, DOD, and commercial space sectors. Various activities in recent years are reviewed aimed at understanding and mitigating radiation related risk in deploying fiber based data handling systems on orbit. Before concluding that there are no critical barriers to designing survivable and reliable systems, several possible types of radiation effects are analyzed. Particular attention is given to the subject of particle-induced bit errors in InGaAs p-i-n photodiodes, including a discussion of error mitigation and upset rate prediction methods.
Space radiation effects in high performance fiber optic data links for satellite data management
Weltraumstrahlungseinfluß in der optischen Datenübertragung für das Satellitendaten-Management
IEEE Transactions on Nuclear Science ; 43 , 2 Part I ; 645-653
1996
9 Seiten, 10 Bilder, 30 Quellen
Aufsatz (Zeitschrift)
Englisch
Fiberoptik , optische Übertragungstechnik , optische Nachrichtenübertragung , Satellit , Satellitenübertragung , NASA (National Aeronautics and Space Administration) , Strahlungsbelastung , Strahlungsfestigkeit , Raumfahrt , Raumfahrzeug , Zuverlässigkeit , Pin-Diode , Gallium-Indium-Arsenid , Ionisation , ionisierende Strahlung , Übertragungsgeschwindigkeit , Proton , Protonenbeschuss , Helium , Bit-Fehlerrate , Strahlungsdosis , Galliumarsenid , Fehlerwahrscheinlichkeit
Space Radiation Effects in High Performance Fiber Optic Data Links for Satellite Data Management
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