Title :
Gated Diode Design to Mitigate Radiation Damage in X-Ray Imagers
Author :
Zelakiewicz, Scott ; Albagli, Douglas ; Hennessy, William ; Couture, Aaron
Author_Institution :
Gen. Electr. Global Res., Niskayuna
Abstract :
Radiation damage of amorphous silicon X-ray imagers leads to degradation of the detector´s performance due to increased diode perimeter leakage. To reduce the effect of this damage, a novel pixel device based on a gated diode was fabricated. The additional gate metalization placed on the perimeter of the diode modulates the surface side-wall leakage and has been tested up to a 64 kGy absorbed dose in the diode. This new pixel design significantly reduces the increase in diode leakage and noise due to radiation damage, providing a more uniform performance and extending the lifetime of the imager.
Keywords :
X-ray effects; X-ray imaging; amorphous semiconductors; photodiodes; radiation effects; silicon; Si; X-ray imagers; amorphous silicon X-ray imagers; gate metalization; gated diode design; photodiodes; radiation damage; Amorphous silicon; Degradation; Diodes; Leak detection; Radiation detectors; Silicon radiation detectors; Testing; X-ray detection; X-ray detectors; X-ray imaging; Amorphous silicon; photodiodes; radiation damage; radiation detectors;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2007.910788
