This project (ESA-BOLD #19947/06/NLPM) involves a subset of the BOLD consortium, but represents a collaboration between the Belgian and French BOLD partners (IMEC, CRHEA, ROB, ESA) needed for the technological evaluation of a focal-plane array demonstrator with the goal of developing new solar-blind APS detectors using wide-bandgap materials.
The purpose of this activity (ended in 2011) was to demonstrate the suitability of the Nitride-based wide-bandgap detector technology for the Solar Orbiter in order to have a solid detector base-line for its EUV instruments. To this end, an advanced technology demonstrator as a fully hybridized / integrated 2-D array of sizeable dimensions (≥ 256 x 256) and small pixel pitch (10µm) has been manufactured and characterized
We present first measurement results from hybrid AlGaN-on-Si-based Extreme Ultraviolet (EUV) imagers with 10 µm pixel-to-pixel pitch. 256x256 backside illuminated Focal Plane Arrays (FPAs) were hybridized to dedicated Si-based CMOS Readouts (ROICs).
- AlGaN Schottky photodiodes (courtesy of IMEC)
- Micrograph of the In bumps deposited on contact pads
- Schematic of an AlGaN-on-Si-based hybrid imager (not to scale)
- AlGaN imager