Space radiation effects on future quantum satellites

Many disturbances in the electronic systems of satellites are caused by the space radiations. Like other electronic systems, the electronic systems of satellites are subject to improve to nanoelectronic systems. Quantum Cellular Automata represents an emerging technology at the nanotechnology level....

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Published in	Aerospace science and technology Vol. 26; no. 1; pp. 72 - 75
Main Authors	Mahdavi, Mojdeh, Amiri, Mohammad Amin
Format	Journal Article
Language	English
Published	Issy-les-Moulineaux Elsevier SAS 01.04.2013 Elsevier
Subjects	Applied sciences Binary wire Electronics Exact sciences and technology Molecular electronics, nanoelectronics Quantum cellular automata Quantum satellite Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices Single electron fault Space radiation Single electron fault Space radiation Quantum cellular automata Quantum satellite Binary wire Space application Quantum dot Modeling Quantum electronics Nanoelectronics Cellular automaton Radiation effect Numerical simulation
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Abstract	Many disturbances in the electronic systems of satellites are caused by the space radiations. Like other electronic systems, the electronic systems of satellites are subject to improve to nanoelectronic systems. Quantum Cellular Automata represents an emerging technology at the nanotechnology level. The effects of space radiations on quantum binary wire are investigated. Single electron fault is a fault which may happen during operation of QCA circuits. A detailed simulation based logic level modeling of Single Electron Fault for QCA binary wire is represented.
AbstractList	Many disturbances in the electronic systems of satellites are caused by the space radiations. Like other electronic systems, the electronic systems of satellites are subject to improve to nanoelectronic systems. Quantum Cellular Automata represents an emerging technology at the nanotechnology level. The effects of space radiations on quantum binary wire are investigated. Single electron fault is a fault which may happen during operation of QCA circuits. A detailed simulation based logic level modeling of Single Electron Fault for QCA binary wire is represented.
Author	Amiri, Mohammad Amin Mahdavi, Mojdeh
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Keywords	Single electron fault Space radiation Quantum cellular automata Quantum satellite Binary wire Space application Quantum dot Modeling Quantum electronics Nanoelectronics Cellular automaton Radiation effect Numerical simulation
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SubjectTerms	Applied sciences Binary wire Electronics Exact sciences and technology Molecular electronics, nanoelectronics Quantum cellular automata Quantum satellite Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices Single electron fault Space radiation
Title	Space radiation effects on future quantum satellites
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