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Paper detail

Response of a Commercial 0.25 um Thin-Film Silicon-on-Sapphire CMOS Technology to Total Ionizing Dose

The radiation response of a 0.25 um silicon-on-sapphire CMOS technology is characterized at the transistor and circuit levels utilizing both standard and enclosed layout devices. Device-level characterization showed threshold voltage change of less than 170 mV and leakage current change of less than 1 nA for individual nMOSFET and pMOSFET devices at a total dose of 100 krad(SiO2). The increase in power supply current at the circuit level was less than 5%, consistent with the small change in off-state transistor leakage current. The technology exhibits good characteristics for use in the electronics of the ATLAS experiment at the Large Hadron Collider.

preprint2022arXivOpen access
Michael P. KingDatao GongChonghan LiuTiankuan LiuAnnie C. XiangJinbo YeRonald D. SchrimpfRobert A. ReedMichael L. AllesDaniel M. Fleetwood
physics.ins-det
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Michael P. KingDatao GongChonghan LiuTiankuan LiuAnnie C. XiangJinbo YeRonald D. SchrimpfRobert A. ReedMichael L. AllesDaniel M. Fleetwood

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