Sustainable electronics for nano-spacecraft in deep space missions

2016 IEEE International Electron Devices Meeting (IEDM) Pub Date : 2016-12-07 DOI:10.1109/IEDM.2016.7838524
Dong-il Moon, Jun-Y. Park, Jin-woo Han, Gwang-Jae Jeon, Jee-Yeon Kim, John U. Moon, Myeong-Lok Seol, C. Kim, Hee-Chul Lee, M. Meyyappan, Yang‐Kyu Choi
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引用次数: 27

Abstract

An on-the-fly self-healing device is experimentally demonstrated for sustainability of space electronics. A high temperature, which is generated by Joule heating in a gate electrode, provides an on-chip annealing of damages induced by ionizing radiation, hot carrier, and tunneling stress. With the self-healing process, a highly scaled silicon nanowire gate-all-around field-effect transistor shows improved long-term reliability in a logic transistor, floating body DRAM, and charge-trap Flash memory, respectively. A thermally isolated gate structure is proposed to enhance the self-healing effect.
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用于深空任务的纳米航天器的可持续电子器件
实验证明了一种用于空间电子设备可持续性的动态自修复装置。在栅极中由焦耳加热产生的高温,提供了由电离辐射、热载子和隧道应力引起的损伤的片上退火。通过自我修复过程,高尺度硅纳米线栅极全方位场效应晶体管分别在逻辑晶体管、浮体DRAM和电荷陷阱闪存中显示出更高的长期可靠性。为了提高自愈效果,提出了一种热隔离栅结构。
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2016 IEEE International Electron Devices Meeting (IEDM)
2016 IEEE International Electron Devices Meeting (IEDM)
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