Protection of isolated and active regions in AlGaN/GaN HEMTs using selective laser annealing

doi:10.1088/1674-1056/abf34c

Abstract AlGaN/GaN high-electron-mobility transistors with Au-free ohmic contacts are fabricated by selective laser annealing and conventional rapid thermal annealing. The current transport mechanism of ohmic contacts is investigated. High-temperature annealing can be avoided in the isolated region and the active region by selective laser annealing. The implanted isolation leakage current is maintained 10^-6 mA/mm even at 1000 V after selective laser annealing. On the contrary, high-temperature annealing will cause obvious degradation of the isolation. The morphology of AlGaN surface is measured by atomic force microscope. No noticeable change of the AlGaN surface morphology after selective laser annealing, while the root-mean-square roughness value markedly increases after rapid thermal annealing. The smaller frequency dispersion of capacitance-voltage characteristics confirms the lower density of surface states after selective laser annealing. Thus, dynamic on-resistance is effectively suppressed.

Keywords: gallium nitride ohmic contacts laser annealing

Received: 08 February 2021
Revised: 12 March 2021
Accepted manuscript online: 30 March 2021

PACS:	73.61.Ey	(III-V semiconductors)
	81.40.Rs	(Electrical and magnetic properties related to treatment conditions)
	42.55.-f	(Lasers)

Fund: Project supported by the National Natural Science Foundation of China (Grant Nos. 51577169 and 51777187), the National Key Research and Development Program of China (Grant No. 2017YFB0402804), and the “Science and Technology Innovation 2025” Major Program of Ningbo (Grant No. 2018B10098).

Corresponding Authors: Gang Xie
E-mail: xielyz@zju.edu.cn

Cite this article:

Mingchen Hou(侯明辰), Gang Xie(谢刚), Qing Guo(郭清), and Kuang Sheng(盛况) Protection of isolated and active regions in AlGaN/GaN HEMTs using selective laser annealing 2021 Chin. Phys. B 30 097302

[1] Chow T P and Tyagi R 1994 IEEE Trans. Electron Dev. 41 1481
[2] Hou M C, Xie G and Sheng K 2019 Chin. Phys. B 28 037302
[3] Shriki A, Winter R, Calahorra Y, Kauffmann Y, Ankonina G, Eizenberg M and Ritter D 2017 J. Appl. Phys. 121 065301
[4] Liu Z H, Sun M, Lee H S, Heuken M and Palacios T 2013 Appl. Phys. Express 6 096502
[5] Yao J N, Lin Y C, Chuang Y L, Huang Y X and Chang E Y 2015 IEEE International Symposium on the Physical & Failure Analysis of Integrated Circuits, June 29-July 2, 2015, Hsinchu, Taiwan, China
[6] Lee J G, Kim H S, Kim D H, Han S W, Seo K S and Cha H Y 2015 Semicond. Sci. Technol. 30 085005
[7] Zhang J H, Huang S, Bao Q L, Wang X L, Wei K, Zheng Y K, Li Y K, Zhao C, Liu X Y, Zhou Q, Chen W J and Zhang B 2015 Appl. Phys. Lett. 107 262109
[8] Li Q X, Zhou Q B, Gao S, Liu X Y and Wang H 2018 Solid State Electron. 147 1
[9] Guziewicz M, Taube A, Ekielski M, Golaszewska K, Zdunek J, Bazarnik P, Adamczyk-Cieslak B and Szerling A 2019 Mater. Sci. Semicond. Process. 96 153
[10] Hou M C, Xie G and Sheng K 2019 Electron. Lett. 55 658
[11] Shiu J Y, Huang J C, Desmaris V, Chang C T, Lu C Y, Kumakura K, Shiu, Makimoto T, Zirath H, Rorsman N and Chang E Y 2007 IEEE Electron Dev. Lett. 28 476
[12] Lo C F, Kang T S, Liu L, Chang C Y, Pearton S J, Kravchenko I I, Laboutin O, Johnson J W and Ren F 2010 Appl. Phys. Lett. 97 262116
[13] Taube A, Kaminska E, Kozubal M, Kaczmarski J, Wojtasiak W, Jasinski J, Borysiewicz M A, Ekielski M, Juchniewicz M, Grochowski J, Mysliwiec M, Dynowska E, Barcz A, Prystawko P, ZajaÎc M, Kucharski R and Piotrowska A 2015 Phys. Status Solidi A 212 1162
[14] Arulkumarana S, Ranjan K, Ng G I, Kennedy J, Murmu P P, Bhat T N and Tripathy S 2016 J. Vacuum Sci. Technol. B 34 042203
[15] Hou M C, Xie G and Sheng K 2018 IEEE Electron Dev. Lett. 39 1137
[16] Schroder D K 2006 Semiconductor Material and Device Characterization, 3rd edn. (Hoboken: John Wiley and Sons) p. 133
[17] Zhao M L, Tang X S, Huo W X, Han L L, Deng Z, Jiang Y, Wang W X, Chen H, Du C H and Jia H Q 2020 Chin. Phys. B 29 048104
[18] Yamada T, Watanabe K, Nozaki M, Shih H A, Nakazawa S, Anda Y, Ueda T, Yoshigoe A, Hosoi T and Shimura T 2018 Jpn. J. Appl. Phys. 57 06KA07
[19] Liu M H, Huang Z W, Chang G C, Lin X N, Li L and Jin Y F 2020 Chin. Phys. Lett. 37 097101
[20] Hu S, Yang L, Mi M H, Hou B, Liu S, Zhang M, Wu M, Zhu Q, Wu S, Lu Y, Zhu J J, Zhou X W, Lv L, Ma X H and Hao Y 2020 Chin. Phys. B 29 087305
[21] Hori Y, Yatabe Z and Hashizume T 2013 J. Appl. Phys. 114 244503
[22] Neamen D A 2012 Semiconductor Physics and Devices: basic principles, 4th edn. (New York: McGraw-Hill) pp. 400-403

[1]	Low-resistance ohmic contacts on InAlN/GaN heterostructures with MOCVD-regrown n⁺-InGaN and mask-free regrowth process Jingshu Guo(郭静姝), Jiejie Zhu(祝杰杰), Siyu Liu(刘思雨), Jielong Liu(刘捷龙), Jiahao Xu(徐佳豪), Weiwei Chen(陈伟伟), Yuwei Zhou(周雨威), Xu Zhao(赵旭), Minhan Mi(宓珉瀚), Mei Yang(杨眉), Xiaohua Ma(马晓华), and Yue Hao(郝跃). Chin. Phys. B, 2023, 32(3): 037303.
[2]	Review of a direct epitaxial approach to achieving micro-LEDs Yuefei Cai(蔡月飞), Jie Bai(白洁), and Tao Wang(王涛). Chin. Phys. B, 2023, 32(1): 018508.
[3]	Phosphorus diffusion and activation in fluorine co-implanted germanium after excimer laser annealing Chen Wang(王尘), Wei-Hang Fan(范伟航), Yi-Hong Xu(许怡红), Yu-Chao Zhang(张宇超), Hui-Chen Fan(范慧晨), Cheng Li(李成), and Song-Yan Cheng(陈松岩). Chin. Phys. B, 2022, 31(9): 098503.
[4]	Self-screening of the polarized electric field in wurtzite gallium nitride along [0001] direction Qiu-Ling Qiu(丘秋凌), Shi-Xu Yang(杨世旭), Qian-Shu Wu(吴千树), Cheng-Lang Li(黎城朗), Qi Zhang(张琦), Jin-Wei Zhang(张津玮), Zhen-Xing Liu(刘振兴), Yuan-Tao Zhang(张源涛), and Yang Liu(刘扬). Chin. Phys. B, 2022, 31(4): 047103.
[5]	Effect of heavy ion irradiation on the interface traps of AlGaN/GaN high electron mobility transistors Zheng-Zhao Lin(林正兆), Ling Lü(吕玲), Xue-Feng Zheng(郑雪峰), Yan-Rong Cao(曹艳荣), Pei-Pei Hu(胡培培), Xin Fang(房鑫), and Xiao-Hua Ma(马晓华). Chin. Phys. B, 2022, 31(3): 036103.
[6]	Modeling, simulations, and optimizations of gallium oxide on gallium-nitride Schottky barrier diodes Tao Fang(房涛), Ling-Qi Li(李灵琪), Guang-Rui Xia(夏光睿), and Hong-Yu Yu(于洪宇). Chin. Phys. B, 2021, 30(2): 027301.
[7]	Effect of overdrive voltage on PBTI trapping behavior in GaN MIS-HEMT with LPCVD SiN_x gate dielectric Tao-Tao Que(阙陶陶), Ya-Wen Zhao(赵亚文), Liu-An Li(李柳暗), Liang He(何亮), Qiu-Ling Qiu(丘秋凌), Zhen-Xing Liu(刘振兴), Jin-Wei Zhang(张津玮), Jia Chen(陈佳), Zhi-Sheng Wu(吴志盛), Yang Liu(刘扬). Chin. Phys. B, 2020, 29(3): 037201.
[8]	Evaluation of stress voltage on off-state time-dependent breakdown for GaN MIS-HEMT with SiN_x gate dielectric Tao-Tao Que(阙陶陶), Ya-Wen Zhao(赵亚文), Qiu-Ling Qiu(丘秋凌), Liu-An Li(李柳暗), Liang He(何亮), Jin-Wei Zhang(张津玮), Chen-Liang Feng(冯辰亮), Zhen-Xing Liu(刘振兴), Qian-Shu Wu(吴千树), Jia Chen(陈佳), Cheng-Lang Li(黎城朗), Qi Zhang(张琦), Yun-Liang Rao(饶运良), Zhi-Yuan He(贺致远), and Yang Liu (刘扬)†. Chin. Phys. B, 2020, 29(10): 107201.
[9]	Fabrication and characterization of one-port surface acoustic wave resonators on semi-insulating GaN substrates Xue Ji(吉雪), Wen-Xiu Dong(董文秀), Yu-Min Zhang(张育民), Jian-Feng Wang(王建峰), Ke Xu(徐科). Chin. Phys. B, 2019, 28(6): 067701.
[10]	Responsivity and noise characteristics of AlGaN/GaN-HEMT terahertz detectors at elevated temperatures Zhi-Feng Tian(田志锋), Peng Xu(徐鹏), Yao Yu(余耀), Jian-Dong Sun(孙建东), Wei Feng(冯伟), Qing-Feng Ding(丁青峰), Zhan-Wei Meng(孟占伟), Xiang Li(李想), Jin-Hua Cai(蔡金华), Zhong-Xin Zheng(郑中信), Xin-Xing Li(李欣幸), Lin Jin(靳琳), Hua Qin(秦华), Yun-Fei Sun(孙云飞). Chin. Phys. B, 2019, 28(5): 058501.
[11]	Mechanism of Ti/Al/Ni/Au ohmic contacts to AlGaN/GaN heterostructures via laser annealing Mingchen Hou(侯明辰), Gang Xie(谢刚), Kuang Sheng(盛况). Chin. Phys. B, 2019, 28(3): 037302.
[12]	PEALD-deposited crystalline GaN films on Si (100) substrates with sharp interfaces San-Jie Liu(刘三姐), Ying-Feng He(何荧峰), Hui-Yun Wei(卫会云), Peng Qiu(仇鹏), Yi-Meng Song(宋祎萌), Yun-Lai An(安运来), Abdul Rehman(阿布度-拉赫曼), Ming-Zeng Peng(彭铭曾), Xin-He Zheng(郑新和). Chin. Phys. B, 2019, 28(2): 026801.
[13]	Improved carrier injection and confinement in InGaN light-emitting diodes containing GaN/AlGaN/GaN triangular barriers Li-Wen Cheng(程立文), Jian Ma(马剑), Chang-Rui Cao(曹常锐), Zuo-Zheng Xu(徐作政), Tian Lan(兰天), Jin-Peng Yang(杨金彭), Hai-Tao Chen(陈海涛), Hong-Yan Yu(于洪岩), Shu-Dong Wu(吴曙东), Shun Yao(尧舜), Xiang-Hua Zeng(曾祥华), Zai-Quan Xu(徐仔全). Chin. Phys. B, 2018, 27(8): 088504.
[14]	Improved performance of Ge n⁺/p diode by combining laser annealing and epitaxial Si passivation Chen Wang(王尘), Yihong Xu(许怡红), Cheng Li(李成), Haijun Lin(林海军). Chin. Phys. B, 2018, 27(1): 018502.
[15]	Formation of high-Sn content polycrystalline GeSn films by pulsed laser annealing on co-sputtered amorphous GeSn on Ge substrate Lu Zhang(张璐), Hai-Yang Hong(洪海洋), Yi-Sen Wang(王一森), Cheng Li(李成), Guang-Yang Lin(林光杨), Song-Yan Chen(陈松岩), Wei Huang(黄巍), Jian-Yuan Wang(汪建元). Chin. Phys. B, 2017, 26(11): 116802.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Metrics
Related Articles

Protection of isolated and active regions in AlGaN/GaN HEMTs using selective laser annealing

Cite this article:

Online attention