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Newly Developed Broadband Plasmonic Absorber for Uncooled Infrared Detectors

Author:
Park, Hae-Seok  Nam, Sung Hyun  Hong, Hyun-Gue  Roh, Sookyoung  Yun, Seokho  Kim, JungWoo  Kwon, Dongil  Chung, U-In  


Journal:
MOEMS AND MINIATURIZED SYSTEMS XIII


Issue Date:
2014


Abstract(summary):

In this paper, we introduce a floating plasmonic absorber having multiple resonances in the 8 similar to 14 mu m spectral range and broadband absorption characteristics by adjusting Drude relaxation rate of metal. This plasmonic broadband resonator capable of capturing light with a large optical cross-section area is able to substantially enhance the performance of micro-bolometer (response time, noise equivalent temperature difference, pixel size and so on) due to the significantly reduced thermal mass and conductance. Firstly, to adjust Drude relaxation rate, the mean crystalline size of metal was optimized by changing the deposition condition and the absorption characteristics of absorber were measured by Fourier transform infrared spectroscopy in the 8 similar to 14 mu m spectral range. The measurement results show that 1.62 times of broadening in bandwidth was obtained by decreasing the crystalline size from 5.73 nm to 3.18 nm while maintaining the maximum absorption at resonant wavelength of 10 mu m within 93 similar to 95%. Comparisons between measurements and CST microwave studio simulations show similar spectral absorption trends. And then, to integrate plasmonic absorber with micro-bolometer, various kinds of plasmonic absorbers which have combinations of short and long dipole resonators were designed and simulated. Based on these results, 12 mu m micro-bolometer pixels integrated with plasmonic broadband Ti absorber are designed and fabricated. The optimized Ti resonators with multiple resonance and small crystalline size absorb 88 % of the unpolarized radiation in the 8 similar to 14 mu m spectral range on the average.


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