论文信息 - Linear bolometer array using a high TCR VOx-Au film

Linear bolometer array using a high TCR VOx-Au film

We present a design for a low-noise bolometer linear array based on the temperature-dependent conductivity of a VOx- Au film. Typical thin film bolometers must compromise between low resistivity to limit Johnson noise and high temperature coefficient of resistivity (TCR) to maximize responsivity. Our vanadium oxide is alloyed with a small concentration of gold by co-sputtering, which gives very low resistivity and very high TCR simultaneously. The film is fabricated on an air bridge device having high thermal conductivity and small thermal time constant optimized for 30 to 60 Hz frame rates. The linear array functions as a low-power profile sensor with a modulated bias. For 1 V bias, we predict responsivity exceeding 1200 V/W. Johnson noise dominates with predicted NEP values as low as 1.0 × 10-11 W/Hz1/2. Preliminary device testing shows film resistivity below 2.5 Ω-cm with TCR exceeding -2.0%. Preliminary measurements of NEP and D* are reported.

[1] Christian Vieider,et al. MEMS-based uncooled infrared bolometer arrays: a review , 2007, SPIE/COS Photonics Asia.

[2] E. Dereniak,et al. Infrared Detectors and Systems , 1996 .

[3] F. J. Morin,et al. Oxides Which Show a Metal-to-Insulator Transition at the Neel Temperature , 1959 .

[4] Wolfgang Ruppel,et al. Optical and electrical properties of black gold layers in the far infrared , 1999 .

[5] Robert E. Peale,et al. Patterning of oxide-hardened gold black by photolithography and metal lift-off , 2014 .

[6] Tao Chen,et al. Study on the preparation of vanadium oxide thin films by the metal-oxygenation method , 2009, Applied Optics and Photonics China.