This paper presents the study of a novel scintillation detector based on standard microfabrication techniques. It consists of a fine pitch array of hollow waveguides filled with a liquid scintillator and optically coupled to photodetectors. The detector has been fabricated by patterning the SU-8 photoresist on silicon wafers. Experimental studies have been performed by exciting the liquid scintillator contained in the SU-8 waveguides with electrons. The scintillation light produced was read out by an external photodetector. The results obtained with this set-up demonstrate the concept of microfluidic scintillation detection and are very encouraging for future developments
Light emitting diode antifuses have been integrated into a microfluidic device that is realized with...
This project arose from the need to filter the sampled data and eliminate non-useful information in ...
This paper describes a setup dedicated to the test of silicon photomultipliers interfaced to a scint...
AbstractThis paper presents the study of a novel scintillation detector based on standard microfabri...
A novel type of particle detector based on scintillation, with precise spatial resolution and high r...
A novel scintillation detector is being developed with standard microfabrication techniques. It cons...
Several recent detector technologies developed for particle physics applications are based on microf...
Microfluidic channels obtained by SU-8 photolithography and filled with liquid scintillators were re...
A new type of scintillation detector is being developed with standard microfabrication techniques. I...
A novel liquid scintillation detector with high spatial resolution is being developed with standard ...
This thesis deals with the development and study of microfluidic scintillation detectors, a technolo...
This thesis presents the design, development, and experimental validation of two types of scintillat...
This paper reports an innovative micromachine-based flow cytometer integrated with buried optical wa...
This paper presents the fabrication of a microchemical chip for the detection of fluorescence specie...
In this thesis a new design is presented for the position-sensitive detection of radiation with sub-...
Light emitting diode antifuses have been integrated into a microfluidic device that is realized with...
This project arose from the need to filter the sampled data and eliminate non-useful information in ...
This paper describes a setup dedicated to the test of silicon photomultipliers interfaced to a scint...
AbstractThis paper presents the study of a novel scintillation detector based on standard microfabri...
A novel type of particle detector based on scintillation, with precise spatial resolution and high r...
A novel scintillation detector is being developed with standard microfabrication techniques. It cons...
Several recent detector technologies developed for particle physics applications are based on microf...
Microfluidic channels obtained by SU-8 photolithography and filled with liquid scintillators were re...
A new type of scintillation detector is being developed with standard microfabrication techniques. I...
A novel liquid scintillation detector with high spatial resolution is being developed with standard ...
This thesis deals with the development and study of microfluidic scintillation detectors, a technolo...
This thesis presents the design, development, and experimental validation of two types of scintillat...
This paper reports an innovative micromachine-based flow cytometer integrated with buried optical wa...
This paper presents the fabrication of a microchemical chip for the detection of fluorescence specie...
In this thesis a new design is presented for the position-sensitive detection of radiation with sub-...
Light emitting diode antifuses have been integrated into a microfluidic device that is realized with...
This project arose from the need to filter the sampled data and eliminate non-useful information in ...
This paper describes a setup dedicated to the test of silicon photomultipliers interfaced to a scint...