In medical X-ray Computed Tomography (CT) a silicon based sensor (300–1000 μm) in face-on configuration does not collect the incoming X-rays effectively because of their high energy (40–140 keV). For example, only 2% of the incoming photons at 100 keV are stopped by a 500 μm thick silicon layer. To increase the efficiency, one possibility is to use materials with higher Z (e.g. GaAs, CZT), which have some drawbacks compared to silicon, such as short carrier lifetime or low mobility. Therefore, we investigate whether illuminating silicon edge-on instead of face-on is a solution. Aim of the project is to find and take advantage of the benefits of this new geometry when used for a pixel detector. In particular, we employ a silicon hybrid pixel...
X-ray detectors made of crystalline silicon have several advantages including low dark currents, fas...
Purpose: The implementation of photon-counting detectors is widely expected to be the next breakthro...
Recent advances in semiconductor pixel detectors and read-out electronics allowed to build the first...
Spectral computed tomography with energy-resolving detectors has a potential to improve the detectab...
Hybrid pixels were originally developed for charged particle tracking in high energy physics. They n...
Photon counting detectors are of growing importance in medical imaging because they enable routine m...
It is well known that a monochromatic X-ray source with an energy optimized for the organ thickness ...
X-ray computed tomography (CT) is a widely used imaging modality that enables visualization of nearl...
It is well known that a monochromatic X-ray source with an energy optimized for the organ thickness ...
Multibin photon-counting x-ray detectors are promising candidates to be applied in next generation c...
Photon-counting detectors are expected to bring a range of improvements to patient imaging with x-ra...
International audienceXPAD3 is a single photon counting chip based on hybrid pixel counters, with lo...
X-ray imaging is a widely used imaging modality in the medical diagnostic field due to its availabil...
Energy sensitive X-ray imaging detectors are produced by connecting a semiconductor sensor to a spec...
X-ray detectors made of crystalline silicon have several advantages including low dark currents, fas...
Purpose: The implementation of photon-counting detectors is widely expected to be the next breakthro...
Recent advances in semiconductor pixel detectors and read-out electronics allowed to build the first...
Spectral computed tomography with energy-resolving detectors has a potential to improve the detectab...
Hybrid pixels were originally developed for charged particle tracking in high energy physics. They n...
Photon counting detectors are of growing importance in medical imaging because they enable routine m...
It is well known that a monochromatic X-ray source with an energy optimized for the organ thickness ...
X-ray computed tomography (CT) is a widely used imaging modality that enables visualization of nearl...
It is well known that a monochromatic X-ray source with an energy optimized for the organ thickness ...
Multibin photon-counting x-ray detectors are promising candidates to be applied in next generation c...
Photon-counting detectors are expected to bring a range of improvements to patient imaging with x-ra...
International audienceXPAD3 is a single photon counting chip based on hybrid pixel counters, with lo...
X-ray imaging is a widely used imaging modality in the medical diagnostic field due to its availabil...
Energy sensitive X-ray imaging detectors are produced by connecting a semiconductor sensor to a spec...
X-ray detectors made of crystalline silicon have several advantages including low dark currents, fas...
Purpose: The implementation of photon-counting detectors is widely expected to be the next breakthro...
Recent advances in semiconductor pixel detectors and read-out electronics allowed to build the first...