This paper highlights a new technique that allows the Teledyne Scientific & Imaging LLC TCM6604A Mercury-Cadmium-Telluride (MCT) Focal Plane Array (FPA) to operate at room temperature. The Teledyne MCT FPA has been a standard in Imaging Spectroscopy since its creation in the 1980's. This FPA has been used in applications ranging from space instruments such as CRISM, M3 and ARTEMIS to airborne instruments such as MaRS and the Next Generation AVIRIS Instruments. The substrate removed MCT FPA has particular advantages in Imaging Spectrometer applications. This approach was pioneered by DARPA/NVESD NIRFPA program. Precise focal plane alignment is always a challenge for such instruments. The current FPA alignment process results in multiple cold cycles requiring week-long durations, thereby increasing the risk and cost of a project. These alignment cycles are necessary because optimal alignment is approached incrementally and can only be measured with the FPA and Optics at standard operating conditions, requiring a cold instrument. Instruments using this FPA are normally cooled to temperatures below 150K for the MCT FPA to properly function. When the FPA is run at higher temperatures the dark current increases saturating the output. This paper covers the prospect of warm MCT FPA operation from a theoretical and experimental perspective. We discuss the empirical models and physical laws that govern MCT material properties and predict the optimal settings that will result in the best MCT FPA performance at 300K. Theoretical results are then calculated for the proposed settings. We finally present the images and data obtained using the actual system with the warm MCT FPA settings. The paper concludes by emphasizing the strong positive correlation between the measured values and the theoretical results.


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    Title :

    Mercury-cadmium-telluride focal plane array performance under non-standard operating conditions


    Contributors:
    Richardson, B S (author) / Eastwood, M L (author) / Bruce, C F (author) / Green, R O (author) / Coles, J B (author)

    Published in:

    Publication date :

    2011-03-01


    Size :

    442630 byte





    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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