Design and simulation of multi-color infrared CMOS metamaterial absorbers

Zhengxi Cheng; Yongping Chen; Bin Ma

doi:10.1117/12.2222975

20 May 2016 Design and simulation of multi-color infrared CMOS metamaterial absorbers

Zhengxi Cheng, Yongping Chen, Bin Ma

Proceedings Volume 9819, Infrared Technology and Applications XLII; 98191P (2016) https://doi.org/10.1117/12.2222975
Event: SPIE Defense + Security, 2016, Baltimore, MD, United States

Abstract

Metamaterial electromagnetic wave absorbers, which usually can be fabricated in a low weight thin film structure, have a near unity absorptivity in a special waveband, and therefore have been widely applied from microwave to optical waveband. To increase absorptance of CMOS MEMS devices in 2-5 μmm waveband, multi-color infrared metamaterial absorbers are designed with CSMC 0.5 μmm 2P3M and 0.18 μmm 1P6M CMOS technology in this work. Metal-insulator-metal (MIM) three-layer MMAs and Insulator-metal-insulator-metal (MIMI) four-layer MMAs are formed by CMOS metal interconnect layers and inter metal dielectrics layer. To broaden absorption waveband in 2-5μmm range, MMAs with a combination of different sizes cross bars are designed. The top metal layer is a periodic aluminum square array or cross bar array with width ranging from submicron to several microns. The absorption peak position and intensity of MMAs can be tuned by adjusting the top aluminum micro structure array. Post-CMOS process is adopted to fabricate MMAs. The infrared absorption spectra of MMAs are verified with finite element method simulation, and the effects of top metal structure sizes, patterns, and films thickness are also simulated and intensively discussed. The simulation results show that CMOS MEMS MMAs enhance infrared absorption in 2-20 μmm. The MIM broad MMA has an average absorptance of 0.22 in 2-5 μmm waveband, and 0.76 in 8-14 μm waveband. The CMOS metamaterial absorbers can be inherently integrated in many kinds of MEMS devices fabricated with CMOS technology, such as uncooled bolometers, infrared thermal emitters.

Citation Download Citation

Zhengxi Cheng, Yongping Chen, and Bin Ma "Design and simulation of multi-color infrared CMOS metamaterial absorbers", Proc. SPIE 9819, Infrared Technology and Applications XLII, 98191P (20 May 2016); https://doi.org/10.1117/12.2222975

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