Single Micro-hole per Pixel for Thin Ge-on-Si Image Sensor with Enhanced Sensitivity upto 1700 nm

Single Micro-hole per Pixel for Thin Ge-on-Si Image Sensor with Enhanced Sensitivity upto 1700 nm

We present a Ge-on_Si CMOS image sensor with backside illumination for the near-infrared electromagnetic waves, wavelengths range 300-1700nm, detection essential for optical sensor technology. The micro-holes help to enhance the optical efficiency and extend the range to the 1.7 microns wavelength....

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Hauptverfasser: Ponizovskaya-Devine, Ekaterina, Mayet, Ahmed S, Rawat, Amita, Ahamed, Ahasan, Wang, Shih-Yuan, Elrefaie, Aly F, Yamada, Toshishige, Islam, M. Saif
Format: Artikel
Sprache:eng
Schlagworte:
Physics - Applied Physics
Physics - Optics
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Zusammenfassung:We present a Ge-on_Si CMOS image sensor with backside illumination for the near-infrared electromagnetic waves, wavelengths range 300-1700nm, detection essential for optical sensor technology. The micro-holes help to enhance the optical efficiency and extend the range to the 1.7 microns wavelength. We demonstrate an optimization for the width and depth of the nano-holes for maximal absorption in the near infrared. We show a reduction in cross-talk by employing thin Si oxide deep trench isolation in between the pixels. Finally, we show a 26-50 percent reduction in the device capacitance with the introduction of a hole. Such CMOS-compatible Ge-on_Si sensor will enable high-density, ultra-fast and efficient near-infrared imaging.
DOI:10.48550/arxiv.2209.14242