High Proton Radiation Tolerance of InAsSb Quantum-Well-Based micro-Hall Sensors

High Proton Radiation Tolerance of InAsSb Quantum-Well-Based micro-Hall Sensors

Tolerance of AlInSb/InAsSb/AlInSb heterostructures quantum-well-based micro-Hall sensors against proton irradiation of 380 keV and proton fluence in the range 10 11 and 10 16 (proton/cm 2 ) is reported. Defects and deep levels induced by proton irradiation into the heterostructures caused decreases...

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Veröffentlicht in:IEEE electron device letters 2014-12, Vol.35 (12), p.1305-1307
Hauptverfasser: Abderrahmane, Abdelkader, Pil Ju Ko, Okada, Hiroshi, Sato, Shin-Ichiro, Ohshima, Takeshi, Shibasaki, Ichiro, Sandhu, Adarsh
Format: Artikel
Sprache:eng
Schlagworte:
Charge carrier density
InAsSb quantum well
Magnetic sensors
Magnetic superlattices
micro-Hall sensors
proton irradiation
Proton radiation effects
Quantum wells
Radiation effects
Sensitivity
two-dimensional electron gas
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Zusammenfassung:Tolerance of AlInSb/InAsSb/AlInSb heterostructures quantum-well-based micro-Hall sensors against proton irradiation of 380 keV and proton fluence in the range 10 11 and 10 16 (proton/cm 2 ) is reported. Defects and deep levels induced by proton irradiation into the heterostructures caused decreases in the mobility of the micro-Hall sensors. Degradation of the magnetic sensitivity started at a proton fluence of 10 13 (proton/cm 2 ) and continued with increasing proton fluence. The variation of the micro-Hall sensors sensitivity was minimal in lowdoped AlInSb/InAsSb/AlInSb heterostructure quantum wells. These micro-Hall sensors were operable even at proton fluence of 10 16 (proton/cm 2 ), which makes these devices suitable for space applications with lifetime of thousands of years in the outer space.
ISSN:0741-3106
1558-0563
DOI:10.1109/LED.2014.2359879