Comparison of ion beam and magnetron sputtered vanadium oxide thin films for uncooled IR imaging

Orlando M. Cabarcos; Hitesh A. Basantani; S. S. N. Bharadwaja; Jing Li; Bryan D. Gauntt; Sami Antrazi; Elizabeth C. Dickey; David L. Allara; Mark W. Horn

doi:10.1117/12.884377

20 May 2011 Comparison of ion beam and magnetron sputtered vanadium oxide thin films for uncooled IR imaging

Orlando M. Cabarcos, Hitesh A. Basantani, S. S. N. Bharadwaja, Jing Li, Bryan D. Gauntt, Sami Antrazi, Elizabeth C. Dickey, David L. Allara, Mark W. Horn

Author Affiliations +

Proceedings Volume 8012, Infrared Technology and Applications XXXVII; 80121K (2011) https://doi.org/10.1117/12.884377
Event: SPIE Defense, Security, and Sensing, 2011, Orlando, Florida, United States

Abstract

Uncooled Infrared (IR) focal plane arrays are an enabling technology for both military and commercial high sensitivity night vision cameras. IR imaging is accomplished using MEMS microbolometers fabricated on read-out integrated circuits and depends critically on the material used to absorb the incoming IR radiation. Suitable detector materials must exhibit a large temperature coefficient of resistance (TCR) and low noise characteristics to efficiently detect IR photons while also maintaining compatibility with standard integrated circuit (IC) processing. The most commonly used material in uncooled infrared imaging detectors is vanadium oxide deposited by reactive ion beam sputtering. Here we present a comparison of vanadium oxide thin films grown via commercial reactive ion beam sputtering to films grown using reactive pulsed DC magnetron sputtering. Films deposited using both methods were optically and structurally characterized using Raman spectroscopy, transmission electron microscopy, atomic force microscopy and grazing incidence X-ray diffraction. The measured electrical properties of the films were found to be very sensitive to the deposition conditions used. The ion beam sputtered films contained twinned FCC VO_x nanocrystals with sub-nanometer twin spacing, in the form of large 10-20 nm wide columnar/conical grains. In contrast, the un-biased magnetron sputtered films consisted of equiax grains of FCC VO_x (5-10 nm) encapsulated in an amorphous matrix. However, applying an RF bias to the sample substrate during the magnetron sputtering process, resulted in films that are similar in structure to ion beam deposited VO_x. These differences in microstructure and composition were then correlated to the measured resistivities and TCRs of the films.

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Orlando M. Cabarcos, Hitesh A. Basantani, S. S. N. Bharadwaja, Jing Li, Bryan D. Gauntt, Sami Antrazi, Elizabeth C. Dickey, David L. Allara, and Mark W. Horn "Comparison of ion beam and magnetron sputtered vanadium oxide thin films for uncooled IR imaging", Proc. SPIE 8012, Infrared Technology and Applications XXXVII, 80121K (20 May 2011); https://doi.org/10.1117/12.884377

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