Impact of proton-induced alteration of carrier lifetime on single-event transient in SiGe heterojunction bipolar transistor

doi:10.1088/1674-1056/28/7/076106

Abstract

This paper presents an investigation into the impact of proton-induced alteration of carrier lifetime on the single-event transient (SET) caused by heavy ions in silicon-germanium heterojunction bipolar transistor (SiGe HBT). The ion-induced current transients and integrated charge collections under different proton fluences are obtained based on technology computer-aided design (TCAD) simulation. The results indicate that the impact of carrier lifetime alteration is determined by the dominating charge collection mechanism at the ion incident position and only the long-time diffusion process is affected. With a proton fluence of 5×10¹³ cm^-2, almost no change is found in the transient feature, and the charge collection of events happened in the region enclosed by deep trench isolation (DTI), where prompt funneling collection is the dominating mechanism. Meanwhile, for the events happening outside DTI where diffusion dominates the collection process, the peak value and the duration of the ion-induced current transient both decrease with increasing proton fluence, leading to a great decrease in charge collection.

Keywords: silicon-germanium heterojunction bipolar transistor (SiGe HBT) proton irradiation minority carrier lifetime single-event transient technology computer-aided design (TCAD) simulation

Received: 13 November 2018
Revised: 29 April 2019
Accepted manuscript online:

PACS:	61.80.Ed	(γ-ray effects)
	61.80.Jh	(Ion radiation effects)
	85.50.Gk	(Non-volatile ferroelectric memories)

Fund:

Project supported by the National Natural Science Foundation of China (Grant Nos. 11775167, 61574171, 11575138, and 11835006).

Corresponding Authors: Jia-Nan Wei
E-mail: weijianan93@163.com

Cite this article:

Jia-Nan Wei(魏佳男), Chao-Hui He(贺朝会), Pei Li(李培), Yong-Hong Li(李永宏), Hong-Xia Guo(郭红霞) Impact of proton-induced alteration of carrier lifetime on single-event transient in SiGe heterojunction bipolar transistor 2019 Chin. Phys. B 28 076106

[1]	Sutton A K, Haugerud B M, Lu Y, Kuo W L, Cressler J D, Marshall P W, Reed R A, Rieh J S, Freeman G and Ahlgren D 2004 IEEE Trans. Nucl. 51 3736
[2]	Cressler J D 2013 IEEE Trans. Nucl. Sci. 60 1992
[3]	Marshall P W, Carts M A, Campbell A, McMorrow D, Buchner S, Stewart R, Randall B, Gilbert B and Reed R A 2000 IEEE Trans. Nucl. Sci. 47 2669
[4]	Cressler J D, Hamilton M C, Mullinax G S and Li Y 2000 IEEE Trans. Nucl. Sci. 47 2515
[5]	Cressler J D 2005 P. IEEE 93 1559
[6]	Krithivasan R, Lu Y, Cressler J D, Rieh J S, Kater M H, Ahlgren D and Freeman G 2006 IEEE Electron Device Lett. 27 567
[7]	Comeau J P, Sutton A K, Haugerud B M, Cressler J D, Kuo W L, Marshall P W, Reed R A, Karroy A and Rogeret V A 2004 IEEE Trans. Nucl. Sci. 51 3743
[8]	Montes E J, Reed R A, Pellish J A, Alles M L, Schrimpf R D, Weller R A, Varadharajaperumal M, Niu G, Sutton A K and Diestelhorst R 2008 IEEE Trans. Nucl. Sci. 55 1581
[9]	Pellish J A, Reed R A, Schrimpf R D, Alles M L, Varadharajaperumal M, Niu G, Sutton A K, Diestelhorst R M, Espinel G, Krithivasan R, Comeau J P, Cressler J D, Vizkelethy G, Marshall P W, Weller R A, Mendenhall M H and Montes E J 2006 IEEE Trans. Nucl. Sci. 53 3298
[10]	Marshall P, Carts M, Currie S, Reed R, Randall B, Fritz K, Kennedy K, Berg M, Krithivasan R and Siedleck C 2005 IEEE Trans. Nucl. Sci. 52 2446
[11]	Zheng Q, Cui J, Lu W, Guo H, Liu J, Yu X, Wei Y, Wang L, Liu J and He C 2018 IEEE Trans. Nucl. Sci. 65 1920
[12]	Wei J N, Guo H X, Zhang F Q, Luo Y H, Ding L L, Pan X Y, Zhang Y and Liu Y H 2017 Chin. Phys. B 26 096102
[13]	Pan X Y, Guo H X, Luo Y H, Zhang F Q, Ding L L, Wei J N and Zhao W 2017 Chin. Phys. B 26 018501
[14]	Wang C, Bai X, Wei C, Yang S, Liu Y, Jin X and Ding L 2015 Nucl. Instrum. Meth. A 796 108
[15]	Petrosyants K O and Kozhukhov M V 2016 IEEE Trans. Nucl. Sci. 63 2016
[16]	McMorrow D, Weatherford T R, Curtice W R, Knudson A R, Buchnerf S, Melinger J S, Tran L H and Campbell A B 1995 IEEE Trans. Nucl. Sci. 42 1837
[17]	Varadharajaperumal M, Niu G, Krithivasan R, Cressler J D, Reed R A, Marshall P W, Vizkelethy G, Dodd P E and Joseph A J 2003 IEEE Trans. Nucl. Sci. 50 2191
[18]	Niu G, Yang H, Varadharajaperumal M, Shi Y, Cressler J D, Krithivasan R, Marshall P W and Reed R 2006 IEEE Trans. Nucl. Sci. 52 2153
[19]	Srour J R, Marshall C J and Marshall P W 2003 IEEE Trans. Nucl. Sci. 50 653
[20]	Srour J R and Palko J W 2013 IEEE Trans. Nucl. Sci. 60 1740
[21]	Srour J R, Chen S C, Othmer S and Hartmann R A 1979 IEEE Trans. Nucl. Sci. 26 4783
[22]	Messenger G C 1992 IEEE Trans. Nucl. Sci. 39 468
[23]	Srour J R, Vendura G J, Lo D H, Toporow C M C, Dooley M, Nakano R P and King E E 1998 IEEE Trans. Nucl. Sci. 45 2624
[24]	Wang Y et al. 2013 High Power Laser Part. Beams 25 1803
[25]	Chu P, Hansen D L, Doyle B L, Jobe K, Lopez R A, Shoga M and Walsh D S 2006 IEEE Trans. Nucl. Sci. 53 1574
[26]	Sun Y, Fu J, Wang Y, Zhou W, Liu Z, Li X and Shi Y 2016 Microelectron. Reliab. 65 41
[27]	Krithivasan R, Niu G, Cressler J D and Currie S M 2003 IEEE Trans. Nucl. Sci. 50 2126
[28]	Fu Y, Li Z, Ng W T and Johnny K O Sin 2014 Integrated Power Devices and TCAD Simulation (1st Edn.) (Boca Raton: CRC Press) p. 91
[29]	Reed R A, Marshall P W, Pickel J C, Carts M A, Fodness B, Niu G, Fritz K, Vizkelethy G, Dodd P E and Irwin T 2003 IEEE Trans. Nucl. Sci. 50 2184

[1]	Angular dependence of proton-induced single event transient in silicon-germanium heterojunction bipolar transistors Jianan Wei(魏佳男), Yang Li(李洋), Wenlong Liao(廖文龙), Fang Liu(刘方), Yonghong Li(李永宏), Jiancheng Liu(刘建成), Chaohui He(贺朝会), and Gang Guo(郭刚). Chin. Phys. B, 2022, 31(8): 086106.
[2]	Evolution of optical properties and molecular structure of PCBM films under proton irradiation Guo-Dong Xiong(熊国栋), Hui-Ping Zhu(朱慧平), Lei Wang(王磊), Bo Li(李博), Fa-Zhan Zhao(赵发展), and Zheng-Sheng Han(韩郑生). Chin. Phys. B, 2022, 31(5): 057102.
[3]	A comparative study on radiation reliability of composite channel InP high electron mobility transistors Jia-Jia Zhang(张佳佳), Peng Ding(丁芃), Ya-Nan Jin(靳雅楠), Sheng-Hao Meng(孟圣皓), Xiang-Qian Zhao(赵向前), Yan-Fei Hu(胡彦飞), Ying-Hui Zhong(钟英辉), and Zhi Jin(金智). Chin. Phys. B, 2021, 30(7): 070702.
[4]	Analysis of the decrease of two-dimensional electron gas concentration in GaN-based HEMT caused by proton irradiation Jin-Jin Tang(汤金金), Gui-Peng Liu(刘贵鹏), Jia-Yu Song(宋家毓), Gui-Juan Zhao(赵桂娟), and Jian-Hong Yang(杨建红). Chin. Phys. B, 2021, 30(2): 027303.
[5]	Irradiation behavior and recovery effect of ferroelectric properties of PZT thin films Yu Zhao(赵瑜), Wen-Yue Zhao(赵文悦), Dan-Dan Ju(琚丹丹), Yue-Yue Yao(姚月月), Hao Wang(王豪), Cheng-Yue Sun(孙承月), Ya-Zhou Peng(彭亚洲), Yi-Yong Wu(吴宜勇), and Wei-Dong Fei(费维栋). Chin. Phys. B, 2021, 30(10): 107702.
[6]	Enhancement of radiation hardness of InP-based HEMT with double Si-doped plane Ying-Hui Zhong(钟英辉), Bo Yang(杨博), Ming-Ming Chang(常明铭), Peng Ding(丁芃), Liu-Hong Ma(马刘红), Meng-Ke Li(李梦珂), Zhi-Yong Duan(段智勇), Jie Yang(杨洁), Zhi Jin(金智), Zhi-Chao Wei(魏志超). Chin. Phys. B, 2020, 29(3): 038502.
[7]	Effects of proton irradiation at different incident angles on InAlAs/InGaAs InP-based HEMTs Shu-Xiang Sun(孙树祥), Zhi-Chao Wei(魏志超), Peng-Hui Xia(夏鹏辉), Wen-Bin Wang(王文斌), Zhi-Yong Duan(段智勇), Yu-Xiao Li(李玉晓), Ying-Hui Zhong(钟英辉), Peng Ding(丁芃), Zhi Jin(金智). Chin. Phys. B, 2018, 27(2): 028502.
[8]	Experimental and simulation studies of single-event transient in partially depleted SOI MOSFET Wei-Wei Yan(闫薇薇), Lin-Chun Gao(高林春), Xiao-Jing Li(李晓静), Fa-Zhan Zhao(赵发展), Chuan-Bin Zeng(曾传滨), Jia-Jun Luo(罗家俊), Zheng-Sheng Han(韩郑生). Chin. Phys. B, 2017, 26(9): 098505.
[9]	Crystalline silicon surface passivation investigated by thermal atomic-layer-deposited aluminum oxide Cai-Xia Hou(侯彩霞), Xin-He Zheng(郑新和), Rui Jia(贾锐), Ke Tao(陶科), San-Jie Liu(刘三姐), Shuai Jiang(姜帅), Peng-Fei Zhang(张鹏飞), Heng-Chao Sun(孙恒超), Yong-Tao Li(李永涛). Chin. Phys. B, 2017, 26(9): 098103.
[10]	Study on irradiation-induced defects in GaAs/AlGaAs core-shell nanowires via photoluminescence technique Li-Ying Tan(谭立英), Fa-Jun Li(黎发军), Xiao-Long Xie(谢小龙), Yan-Ping Zhou(周彦平), Jing Ma(马晶). Chin. Phys. B, 2017, 26(8): 086201.
[11]	Impact of energy straggle on proton-induced single event upset test in a 65-nm SRAM cell Bing Ye(叶兵), Jie Liu(刘杰), Tie-Shan Wang(王铁山), Tian-Qi Liu(刘天奇), Jie Luo(罗捷), Bin Wang(王斌), Ya-Nan Yin(殷亚楠), Qing-Gang Ji(姬庆刚), Pei-Pei Hu(胡培培), You-Mei Sun(孙友梅), Ming-Dong Hou(侯明东). Chin. Phys. B, 2017, 26(8): 088501.
[12]	Variation of passivation behavior induced by sputtered energetic particles and thermal annealing for ITO/SiO_x/Si system Ming Gao(高明), Hui-Wei Du(杜汇伟), Jie Yang(杨洁), Lei Zhao(赵磊), Jing Xu(徐静), Zhong-Quan Ma(马忠权). Chin. Phys. B, 2017, 26(4): 045201.
[13]	Mechanism of single-event transient pulse quenching between dummy gate isolated logic nodes Chen Jian-Jun (陈建军), Chi Ya-Qing (池雅庆), Liang Bin (梁斌). Chin. Phys. B, 2015, 24(1): 016102.
[14]	Effect of ionizing radiation on dual 8-bit analog-to-digital converters (AD9058) with various dose rates and bias conditions Li Xing-Ji (李兴冀), Liu Chao-Ming (刘超铭), Sun Zhong-Liang (孙中亮), Xiao Li-Yi (肖立伊), He Shi-Yu (何世禹). Chin. Phys. B, 2013, 22(9): 098501.
[15]	Effect of vacancy defect clusters on the optical property of the aluminium filter used for the space solar telescope Cheng Xiu-Wei(程秀围), Guan Qing-Feng(关庆丰), Fan Xian-Hong(范鲜红), and Chen Bo(陈波) . Chin. Phys. B, 2010, 19(1): 016103.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Metrics
Related Articles

Impact of proton-induced alteration of carrier lifetime on single-event transient in SiGe heterojunction bipolar transistor

Cite this article:

Online attention