总剂量辐照对热载流子效应的影响研究

何玉娟; 章晓文; 刘远

doi:10.7498/aps.65.246101

摘要

研究了总剂量辐照效应对0.35 m n型金属-氧化物-半导体（NMOS）器件热载流子测试的影响.试验结果表明：经过100 krad（Si）总剂量辐照后进行5000 s的热载流子测试，NMOS器件阈值电压随着总剂量的增大而减小，然后随热载流子测试时间的增加而增大，且变化值远远超过未经过总剂量辐照的器件；总剂量辐照后经过200 h高温退火，再进行5000 s的热载流子测试，其热载流子退化值远小于未高温退火的样品，但比未辐照的样品更明显，即总剂量辐照与热载流子的协同效应要超过两种效应的简单叠加.根据两种效应的原理分析，认为总剂量辐照感生氧化层陷阱电荷中的空穴与热电子复合减少了正氧化层的陷阱电荷，但辐照感生界面态俘获热电子形成负的界面陷阱电荷，表现为两者的协同效应模拟方式比单机理模拟方式对器件的影响更严重.

关键词:

Abstract

The equipment and devices which are long-time running in space are affected by space radiation effects and hot carrier injection effects at the same time which would reduce their optional times. Normally, the single mechanism test simulation method is used on the ground simulation test but the multi-mechanism effect affects the space equipments and devices, including total irradiation dose effect, hot carrier injection effect, etc. The total dose dependence of hot carrier injection (HCI) effect in the 0.35 m n-channel metal oxide. semiconductor (NMOS) device is studied in this paper. Three samples are tested under different conditions (sample 1# with total irradiation dose (TID) and HCI test, sample 2# with TID, annealing and HCI test, sample 3# only with HCI test). The results show that threshold voltage of NMOS device with 5000 s HCI test after 100 krad (Si) total dose radiation has been negatively shifted then positively during total dose irradiation test and HCI test, and the threshold is higher than that of the device without radiation test. But the threshold voltage shift of NMOS device with 5000 s HCI test and 200 h annealing test after TID test is higher than that of the devices without radiation test and lower than that of the devices without annealing test. That is, the parameters of NMOS device vary faster with the combined effects (including the total dose irradiation effect and HCI effect) than with single mechanism effect. It is indicated that the hot electrons are trapped by the oxide trap charges induced by irradiation effect and then become a recombination centre. And then the oxide trap charges induced by irradiation effect reduce and become negative electronic. The interface trap charges induced by irradiation effect are reduced and then increased it is because the electrons of hole-electron pairs in the Si-SiO2 interface are recombined by oxide traps in the oxide during the forepart of HCI test but then the electrons are trapped by interface traps in the Si-SiO2 interface because the electrons from source area are injected to interface during the HCI test. So the threshold voltage is positively shifted due to the negative oxide trap charges and interface trap charges. The association effect is attributed to the reduction of oxide traps induced by recombination with hot electrons and the increase of the interface traps induced by irradiation trapped hot electrons.

Keywords:

作者及机构信息

1.
工业和信息化部电子第五研究所, 电子元器件可靠性物理及其应用技术国家重点实验室, 广州 510610

通信作者: 何玉娟, heyu0000@126.com

基金项目: 国家自然科学基金（批准号：61574048，61204112）和广东省科技重大专项（批准号：2015B090912002）资助的课题.

Authors and contacts

1.
Science and Technology on Reliability Physics and Application of Electronic Component Laboratory, the Fifth Electronics Research Institute of Ministry of Industry and Information Technology, Guangzhou 510610, China

Corresponding author: He Yu-Juan, heyu0000@126.com

Funds: Project supported by the National Natural Science Foundation of China (Grant Nos. 61574048, 61204112) and the Science and Technology Research Project of Guangdong, China (Grant No. 2015B090912002).

参考文献

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[2]	Oldham T R, McLean F B 2003 IEEE Trans. Nucl. Sci. 50 483
[3]	Hu C, Tam S C, Hsu F C 1985 IEEE Trans. Electron Dev. 32 375
[4]	Heremans P, Bellens R, Groeseneken G 1988 IEEE Trans. Electron Dev. 35 2194
[5]	Cui J W, Yu X F, Ren D Y, Lu J 2012 Acta Phys. Sin. 61 026102 (in Chinese)[崔江维, 余学峰, 任迪远, 卢健2012物理学报 61 026102]
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[8]	Winokur P S, Schwank J R, McWhorter P J, Dressendorfer P V, Turpin D C 1984 IEEE Trans. Nucl. Sci. 31 1453
[9]	Mileusnic S, Zivanov M, Habas P 2002 11th IEEE Mediterranean Electrotechnical Conference Cairo, Egypt, May 7-9, 2002 p31
[10]	Ang C H, Ling C H, Cheng Z Y, Kim S J, Cho B J 2000 IEEE Trans. Nucl. Sci. 47 2758
[11]	Sze S M 1988 Physics of Semiconductor Devices (Hoboken:John Wiley & Sons, Inc.) p431

施引文献

[1]	Fleetwood D M, Xiong H D, Lu Z Y 2002 IEEE Trans. Nucl. Sci. 49 2674
[2]	Oldham T R, McLean F B 2003 IEEE Trans. Nucl. Sci. 50 483
[3]	Hu C, Tam S C, Hsu F C 1985 IEEE Trans. Electron Dev. 32 375
[4]	Heremans P, Bellens R, Groeseneken G 1988 IEEE Trans. Electron Dev. 35 2194
[5]	Cui J W, Yu X F, Ren D Y, Lu J 2012 Acta Phys. Sin. 61 026102 (in Chinese)[崔江维, 余学峰, 任迪远, 卢健2012物理学报 61 026102]
[6]	Silvestri M, Gerardin S, Paccagnella A, Faccio F 2008 IEEE Trans. Nucl. Sci. 55 3216
[7]	Ren D Y, Yu X F, Erkin, Zhang G Q, Lu W, Guo Q, Fan L, Yan R L 2001 Res. Prog. SSE 21 103 (in Chinese)[任迪远, 余学峰, 艾尔肯, 张国强, 陆妩, 郭旗, 范隆, 严荣良2001固体电子学研究与进展 21 103]
[8]	Winokur P S, Schwank J R, McWhorter P J, Dressendorfer P V, Turpin D C 1984 IEEE Trans. Nucl. Sci. 31 1453
[9]	Mileusnic S, Zivanov M, Habas P 2002 11th IEEE Mediterranean Electrotechnical Conference Cairo, Egypt, May 7-9, 2002 p31
[10]	Ang C H, Ling C H, Cheng Z Y, Kim S J, Cho B J 2000 IEEE Trans. Nucl. Sci. 47 2758
[11]	Sze S M 1988 Physics of Semiconductor Devices (Hoboken:John Wiley & Sons, Inc.) p431

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