International audienceScientific low light imaging devices benefit today from designs for pushing the mean noise to the single electron level. When readout noise reduction reaches its limit, signal-to-noise ratio improvement can be driven by an electron multiplication process, driven by impact ionization, before adding the readout noises. This concept already implemented in CCD structures using extra-pixel shift registers can today be integrated inside each pixel in CMOS technology. The EBCMOS group at IPNL is in charge of the characterization of new prototypes developed by E2V using this concept: the electron multiplying CMOS (EMCMOS). The CMOS technology enables electron multiplication inside the photodiode itself, and thus, an overlap of...
A backside illuminated, monolithic CMOS pixel sensor for direct detection of low energy electrons ha...
The recent developments in the domain of the standard CMOS imagers for visible light, mainly in the ...
Abstract–We have designed and fabricated a CMOS Monolithic Active Pixel Sensor (MAPS) in a novel 0.1...
International audienceScientific low light imaging devices benefit today from designs for pushing th...
An electron multiplying CMOS images sensor (emCMOS) enables electron multiplication inside the pixel...
The Electron Multiplying Test Chip 1 (EMTC1) was developed with the aim of creating a device which c...
Low light level and high-speed image sensors as required for space applications can suffer from a de...
Abstract. Low light level imaging has been revolutionised in recent years with the introduction of E...
We have developed an Electron Multiplying (EM) CCD based, high frame rate camera system using an opt...
Electron Multiplying Charge Coupled Devices (EMCCDs) have revolutionised low light level imaging, pr...
Abstract—Electron multiplying charge-coupled devices (EM-CCDs) enable imaging with subelectron noise...
Electron-bombarded pixel image sensors, where a single photoelectron is accelerated directly into a ...
Electron multiplying CCD (EMCCD) technology has found important initial applications in low light su...
A new imaging device for dynamic electron microscopy is in great demand. The detector should provide...
The aim of this project was to calibrate the new CMOS pixel sensor by using X-Ray fluorescence experi...
A backside illuminated, monolithic CMOS pixel sensor for direct detection of low energy electrons ha...
The recent developments in the domain of the standard CMOS imagers for visible light, mainly in the ...
Abstract–We have designed and fabricated a CMOS Monolithic Active Pixel Sensor (MAPS) in a novel 0.1...
International audienceScientific low light imaging devices benefit today from designs for pushing th...
An electron multiplying CMOS images sensor (emCMOS) enables electron multiplication inside the pixel...
The Electron Multiplying Test Chip 1 (EMTC1) was developed with the aim of creating a device which c...
Low light level and high-speed image sensors as required for space applications can suffer from a de...
Abstract. Low light level imaging has been revolutionised in recent years with the introduction of E...
We have developed an Electron Multiplying (EM) CCD based, high frame rate camera system using an opt...
Electron Multiplying Charge Coupled Devices (EMCCDs) have revolutionised low light level imaging, pr...
Abstract—Electron multiplying charge-coupled devices (EM-CCDs) enable imaging with subelectron noise...
Electron-bombarded pixel image sensors, where a single photoelectron is accelerated directly into a ...
Electron multiplying CCD (EMCCD) technology has found important initial applications in low light su...
A new imaging device for dynamic electron microscopy is in great demand. The detector should provide...
The aim of this project was to calibrate the new CMOS pixel sensor by using X-Ray fluorescence experi...
A backside illuminated, monolithic CMOS pixel sensor for direct detection of low energy electrons ha...
The recent developments in the domain of the standard CMOS imagers for visible light, mainly in the ...
Abstract–We have designed and fabricated a CMOS Monolithic Active Pixel Sensor (MAPS) in a novel 0.1...