Title :
Novel infrared absorbing material coupled uncooled microbolometer
Author_Institution :
Center for Nano-Syst. Technol., Korea Inst. of Sci. & Technol., Seoul, South Korea
Abstract :
A novel infrared absorbing material for an uncooled microbolometer was developed and a microbolometer was designed and fabricated using the new bolometric material. The new infrared absorbing material was fabricated based on the formation (by cosputtering) of a vanadium-tungsten alloy film and its oxidation. The new bolometric material has TCR values in the range of -1.5 to -4.0 %/K, depending on the variation of tungsten concentration and oxidation time. The novel infrared absorbing material coupled microbolometer was fabricated by surface micromachining and its bolometric properties were characterized. Finally, the responsivity and noise voltage were measured as a function of chopper frequency, and detectivities of 0.9-6.0×108 cmHz12//W were obtained at chopper frequencies of 10-100 Hz and bias current of 33 μA.
Keywords :
absorbing media; bolometers; focal planes; infrared detectors; metallic thin films; micromachining; microsensors; oxidation; sputter deposition; tungsten alloys; vanadium alloys; 10 to 100 Hz; 33 muA; FPA; TCR; VWO; bias current; bolometric properties; chopper frequency; cosputtering; detectivity; focal plane array; infrared absorbing material; noise voltage; oxidation time; responsivity; surface micromachining; temperature coefficient of resistance; thin film; tungsten concentration; uncooled microbolometer; vanadium-tungsten alloy; vanadium-tungsten oxide; Annealing; Infrared detectors; Inorganic materials; Micromachining; Oxidation; Scanning electron microscopy; Semiconductor materials; Superconducting materials; Time measurement; Tungsten;
Conference_Titel :
Sensors, 2004. Proceedings of IEEE
Print_ISBN :
0-7803-8692-2
DOI :
10.1109/ICSENS.2004.1426252
