Abstract
This paper aims at studying the feasibility of very long infrared wavelength (VLWIR) (12–18 μm) focal plane arrays using n-on-p planar ion-implanted technology. To explore and analyze the feasibility of such VLWIR detectors, a set of four Cd x Hg1−x Te LPE layers with an 18 μ cutoff at 50 K has been processed at Defir (LETI/LIR–Sofradir joint laboratory), using both our “standard” n-on-p process and our improved low dark current process. Several 320 × 256 arrays, 30-μm pitch, have been hybridized on standard Sofradir readout circuits and tested. Small dimension test arrays characterization is also presented. Measured photonic currents with a 20°C black body suggest an internal quantum efficiency above 50%. Typical I(V) curves and thermal evolution of the saturation current are discussed, showing that standard photodiodes remain diffusion limited at low biases for temperatures down to 30 K. Moreover, the dark current gain brought by the improved process is clearly visible for temperatures higher than 40 K. Noise measurements are also discussed showing that a very large majority of detectors appeared background limited under usual illumination and biases. In our opinion, such results demonstrate the feasibility of high-performance complex focal plane arrays in the VLWIR range at medium term.
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Acknowledgements
The authors are grateful to all their collaborators at both LETI-LIR and Sofradir, namely, F. Henry and D. Giotta, who realized all the technological steps necessary to get high-quality FPAs and J.C. Déplanche for characterizations. This work was supported by the French National Space Agency (CNES) and Sofradir
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Gravrand, O., De Borniol, E., Bisotto, S. et al. From Long Infrared to Very Long Infrared Wavelength Focal Plane Arrays Made with HgCdTe n + n −/p Ion Implantation Technology. J. Electron. Mater. 36, 981–987 (2007). https://doi.org/10.1007/s11664-007-0151-3
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DOI: https://doi.org/10.1007/s11664-007-0151-3