\u3cp\u3eBy placing, in vacuum, a stack of transmission dynodes (tynodes) on top of a CMOS pixel chip, a single free electron detector could be made with outstanding performance in terms of spatial and time resolution. The essential object is the tynode: an ultra thin membrane, which emits, at the impact of an energetic electron on one side, a multiple of electrons at the other side. The electron yields of tynodes have been calculated by means of GEANT-4 Monte Carlo simulations, applying special low-energy extensions. The results are in line with another simulation based on a continuous charge-diffusion model. By means of Micro Electro Mechanical System (MEMS) technology, tynodes and test samples have been realized. The secondary electron y...
High-performance detectors with high spatial and time resolutions are required in applications such ...
The Vacuum Silicon PhotoMultiplier Tube (VSiPMT) is an innovative design we propose for a modern hyb...
International audienceScientific low light imaging devices benefit today from designs for pushing th...
By placing, in vacuum, a stack of transmission dynodes (tynodes) on top of a CMOS pixel chip, a sing...
By placing, in vacuum, a stack of transmission dynodes (tynodes) on top of a CMOS pixel chip, a sing...
For decades, photomultiplier tubes (PMTs) have been the most common choice in single photon detectio...
Photon counting detectors are essential for many applications, including astronomy, medical imaging,...
In this paper we demonstrate the fabrication of large arrays of ultrathin freestanding membranes (ty...
In this work we demonstrate that ultra-thin (5 and 15 nm) MgO transmission dynodes with sufficient h...
An electron-optic model of a 26 mm diameter vacuum phototriode (VPT) photodetector was developed usi...
VSiPMT (Vacuum Silicon PhotoMultiplier Tube) is an innovative design for a modern hybrid, high gain,...
In gaseous detectors, spatial and energy resolutions are limited by the gain fluctuations. We have m...
The Gas Electron Multiplier (GEM) amplifies electrons released in a gas and transfers them to a seco...
AbstractThe invention of Micromegas and GEM has enabled the development of a new generation of gaseo...
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University...
High-performance detectors with high spatial and time resolutions are required in applications such ...
The Vacuum Silicon PhotoMultiplier Tube (VSiPMT) is an innovative design we propose for a modern hyb...
International audienceScientific low light imaging devices benefit today from designs for pushing th...
By placing, in vacuum, a stack of transmission dynodes (tynodes) on top of a CMOS pixel chip, a sing...
By placing, in vacuum, a stack of transmission dynodes (tynodes) on top of a CMOS pixel chip, a sing...
For decades, photomultiplier tubes (PMTs) have been the most common choice in single photon detectio...
Photon counting detectors are essential for many applications, including astronomy, medical imaging,...
In this paper we demonstrate the fabrication of large arrays of ultrathin freestanding membranes (ty...
In this work we demonstrate that ultra-thin (5 and 15 nm) MgO transmission dynodes with sufficient h...
An electron-optic model of a 26 mm diameter vacuum phototriode (VPT) photodetector was developed usi...
VSiPMT (Vacuum Silicon PhotoMultiplier Tube) is an innovative design for a modern hybrid, high gain,...
In gaseous detectors, spatial and energy resolutions are limited by the gain fluctuations. We have m...
The Gas Electron Multiplier (GEM) amplifies electrons released in a gas and transfers them to a seco...
AbstractThe invention of Micromegas and GEM has enabled the development of a new generation of gaseo...
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University...
High-performance detectors with high spatial and time resolutions are required in applications such ...
The Vacuum Silicon PhotoMultiplier Tube (VSiPMT) is an innovative design we propose for a modern hyb...
International audienceScientific low light imaging devices benefit today from designs for pushing th...
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