Optical-readout micro-cantilever array IR imaging system and performance analysis

Xiong Zhi_Ming; Zhang Qing_Chuan; Chen Da_Peng; Wu Xiao_Ping; Guo Zhe_Ying; Dong Feng_Liang; Miao Zheng_Yu; Li Chao_Bo

doi:10.7498/aps.56.2529

Abstract
The uncooled IR imaging technology has wide applications. Using the optical readout uncooled IR imaging system built in our laboratory, thermal images of human body are obtained successfully by placing a bi-material micro-cantilever array (FPA) without silicon substrate in air. By comparing the IR imaging results obtained by placing FPA under different vacuum pressures, the pressure dependence of the thermal conductance and system noise is modeled, and the influence to the system performance is analyzed. The model of thermal conductance of gas is analyzed and verified experimentally on condition that the mean-free path of the gas molecules is larger than the gas gap between the bi-material cantilever and the wall of vacuum chamber. Experimental analysis indicates that for FPA working in air, the random vibration noise of the cantilever impacted by the gas molecules' thermal motion is the main source of the system noise. When the pressure decreases to lower than 10-2 Pa, the influence of gas conductance can be neglected, the total thermal conductance decreases to the limit of radiative conductance, and the random vibration noise of the cantilever is reduced to a minimum. The experimental results and theoretical analysis agree well.

Keywords:
uncooled infrared imaging /

optical readout /

bi-material micro-cantilever array /

thermal conductance
Authors and contacts
Xiong Zhi_Ming¹,

Zhang Qing_Chuan¹,

Chen Da_Peng²,

Wu Xiao_Ping¹,

Guo Zhe_Ying¹,

Dong Feng_Liang¹,

Miao Zheng_Yu¹,

Li Chao_Bo²

(1)中国科学技术大学，中国科学院材料力学行为和设计重点实验室，合肥 230027; (2)中国科学院微电子研究所，北京 100029
References

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Vol. 56, Issue 5 - 2007-03-05

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