Effect of micro-range transmission on the imaging sharpness of near-infrared upconversion thin-film silicon-based detectors

• Published in: Optics communications Vol. 529; p. 129108
• Main Authors: Zhou, Jianwei, Cai, Hongxing, Ren, Yu, Li, Shuang, Jiang, Chunxu, Lv, Zhong, Wang, Tingting, Qu, Guangnan, Cai, Pengcheng, Tan, Yong, Shi, Jing, Xin, Minsi, Miao, Xinhui, Liu, Quansheng
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 15.02.2023
• Subjects: Micro-range transmission; Near-infrare; Upconversion; Micro-range transmission; Near-infrare; Upconversion
• ISSN: 0030-4018; 1873-0310
• DOI: 10.1016/j.optcom.2022.129108

Near-infrared photons are converted to visible photons by nonlinear crystal upconversion materials and detected directly by silicon-based detectors, which is an attractive method for near-infrared detection. In this study, the influence of the film thickness of the upconversion material on the imaging sharpness based on the Van Cittert–Zernike theorem is analyzed. The relationship between imaging sharpness of silicon-based detectors and different thicknesses of near-infrared upconversion films is obtained by experimental measurements. The results show that the crystal luminescence area As of the microstructure unit of the upconversion material and the wavelength λ¯ of the converted visible light center remain unchanged with the change of thickness. The crosstalk distance a of the imaging sharpness is proportional to the thickness z of the upconversion material film, which is consistent with the theoretical results. •This paper theoretically study the micro transmission mechanism of near-infrared upconversion thin films through Van Cittert–Zernike theorem for the first time.•The crosstalk distance of imaging sharpness is proportional to the film thickness of the upconversion material.•The proposed all-optical up conversion imaging system has broad application prospects in the field of near-infrared imaging which needs miniaturization and high stability.