Study on HgCdTe APD focal plane technology

Xiong-Jun LI; Ying-Xu ZHANG; Xiao CHEN; Li-Hua LI; Peng ZHAO; Zhen-Yu YANG; Dong YANG; Wei-bo JIANG; Peng-wei YANG; Jin-Cheng KONG; Jun ZHAO; Rong-Bin JI

doi:10.11972/j.issn.1001-9014.2022.06.004

Journals >Journal of Infrared and Millimeter Waves >Volume 41 >Issue 6 >Page 965 > Article

Journal of Infrared and Millimeter Waves
Vol. 41, Issue 6, 965 (2022)

Study on HgCdTe APD focal plane technology

Xiong-Jun LI¹, Ying-Xu ZHANG¹, Xiao CHEN¹, Li-Hua LI¹, Peng ZHAO¹, Zhen-Yu YANG², Dong YANG¹, Wei-bo JIANG¹, Peng-wei YANG¹, Jin-Cheng KONG¹, Jun ZHAO¹, and Rong-Bin JI^1、*

Author Affiliations

¹Kunming Institute of Physics，Kunming 650223，China

²Huazhong University of Science and Technology，Wuhan 430074，China

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DOI: 10.11972/j.issn.1001-9014.2022.06.004 Cite this Article

Xiong-Jun LI, Ying-Xu ZHANG, Xiao CHEN, Li-Hua LI, Peng ZHAO, Zhen-Yu YANG, Dong YANG, Wei-bo JIANG, Peng-wei YANG, Jin-Cheng KONG, Jun ZHAO, Rong-Bin JI. Study on HgCdTe APD focal plane technology[J]. Journal of Infrared and Millimeter Waves, 2022, 41(6): 965 Copy Citation Text

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Abstract

A 256×256 HgCdTe APD hybrid focal plane array (FPA) with 30μm pixel pitch was prepared by B ion implantation n-on-p planar junction technology based on MW HgCdTe material grown by LPE. The performance parameters such as gain, dark current and noise factor were characterized and analyzed at liquid nitrogen temperature. The results show that the average gain of HgCdTe APD focal plane chip is 166.8 and the gain non-uniformity is 3.33% under - 8.5V reverse bias; Under 0 ~ - 8.5V reverse bias, the gain normalized dark current of APD device is 9.0×10^-14A~1.6×10^-13A, the noise factor F is between 1.0 and 1.5. In addition, the imaging demonstration of HgCdTe APD focal plane is carried out, and a good imaging effect is obtained.

Keywords

APD dark current gain HgCdTe the noise factor

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