Direct Detection of 100–5000 eV Electrons With Delta-Doped Silicon CMOS and Electron-Multiplying CCD Imagers
Electron Devices, IEEE Transactions(2012)
Abstract
We have demonstrated a direct detection of 100-5000 eV electrons with a back-illuminated boron delta-doped hybrid silicon complementary metal-oxide-semiconductor imager operating in full depletion and a silicon electron-multiplying charge-coupled device (CCD) operating in partial depletion. The delta-doping molecular beam epitaxy increases sensitivity to low-energy electrons and improves low-energy electron detection threshold relative to conventional solid-state detectors. We compare the gain measured in these two delta-doped devices with gain measured from control delta-doped CCDs.
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Key words
ccd image sensors,cmos image sensors,elemental semiconductors,silicon,si,back-illuminated boron delta-doped hybrid silicon cmos imager,complementary metal-oxide-semiconductor imager,delta-doped silicon cmos imagers,delta-doping molecular beam epitaxy,electron volt energy 100 ev to 5000 ev,low-energy electron detection,silicon electron-multiplying ccd imager,silicon electron-multiplying charge-coupled device imager,solid-state detectors,charge-coupled device (ccd) image sensors,complementary metal–oxide–semiconductor (cmos) image sensors,electron detection,silicon radiation detectors,imaging,detectors,molecular beam epitaxy,backscatter,complementary metal oxide semiconductor,image sensor,cmos image sensor,cmos integrated circuits,charged couple device
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