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Advisor(s)
Abstract(s)
Amorphous glass/ZnO-Al/p(a-Si:H)/i(a-Si:H)/n(a-Si1-xCx:H)/Al imagers with different n-layer resistivities were produced by plasma enhanced chemical vapour deposition technique (PE-CVD). An image is projected onto the sensing element and leads to spatially confined depletion regions that can be readout by scanning the photodiode with a low-power modulated laser beam. The essence of the scheme is the analog readout, and the absence of semiconductor arrays or electrode potential manipulations to transfer the information coming from the transducer.
The influence of the intensity of the optical image projected onto the sensor surface is correlated with the sensor output characteristics (sensitivity, linearity blooming, resolution and signal-to-noise ratio) are analysed for different material compositions (0.5 < x < 1). The results show that the responsivity and the spatial resolution are limited by the conductivity of the doped layers. An enhancement of one order of magnitude in the image intensity signal and on the spatial resolution are achieved at 0.2 mW cm(-2) light flux by decreasing the n-layer conductivity by the same amount.
A physical model supported by electrical simulation gives insight into the image-sensing technique used.
Description
Keywords
Solid state transducer a-Si : H p-i-n devices Optical sensors Imager Image acquisition and representation Analog readout
Citation
VIEIRA, Manuela; [et al] – New p-i-n Si : H imager configuration for spatial resolution improvement. Sensors and Actuators A: Physical. ISSN 0924-4247. Vol. 92, N.º 1-3 (2001), pp. 60-66.
Publisher
Elsevier Science SA