Title :
Comparison of V2O5 Microbolometer Optical Performance Using NiCr and Ti Thin-Films
Author :
Awad, Ehab S. ; Al-Khalli, Najeeb ; Abdel-Rahman, Mohamed ; Alduraibi, Mohammad ; Debbar, Nacer
Author_Institution :
Dept. of Electr. EngineeringCollege of Eng., King Saud Univ., Riyadh, Saudi Arabia
Abstract :
The optical performance characteristics of vanadium-oxide microbolometer with on-top nichrome (NiCr) thin-film metal absorber layer are evaluated using numerical simulations. A thin-film NiCr metal is sputter deposited and its optical parameters are experimentally characterized over the long-wave infrared (LWIR) range 8-$12~mu $ m. The optical performance of microbolometer with NiCr has been compared with titanium (Ti) and without any metal thin-film. The comparison indicates that the optical absorption response of NiCr device is nearly flat and has a broadband enhancement over the LWIR range. In addition, it shows large insensitivity to variations in air-gap and metal thin-film thickness, which permits for a large fabrication tolerance. In addition, the optimized air-gap devices show that the NiCr-based device has the smallest air-gap thickness, which can lead to short leg-length and mechanically robust device.
Keywords :
bolometers; chromium alloys; infrared spectra; metallic thin films; microsensors; nickel alloys; sputter deposition; titanium; vanadium compounds; NiCr; Ti; V2O5; air-gap; air-gap thickness; long-wave infrared range; metal thin-film thickness; microbolometer; numerical simulations; on-top nichrome thin-film metal absorber layer; optical absorption response; optical performance; size 8 mum to 12 mum; sputter deposition; Absorption; Metals; Optical device fabrication; Optical films; Optical reflection; Optical refraction; Optical variables control; Infrared ellipsometry; Infrared optical absorption; Microbolometers; Thin-film metals; infrared ellipsometry; infrared optical absorption; thin-film metals;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2014.2377203
