A5092111906- Neutrino Physics Research
- Radiation Detection and Scintillator Technologies
- Dark Matter and Cosmic Phenomena
- Astrophysics and Cosmic Phenomena
- Particle Detector Development and Performance
- Atomic and Subatomic Physics Research
- Nuclear Physics and Applications
- Quantum, superfluid, helium dynamics
- Analytical Chemistry and Sensors
- Particle physics theoretical and experimental studies
- Laser Design and Applications
- Advanced Optical Sensing Technologies
- Cold Atom Physics and Bose-Einstein Condensates
- Calibration and Measurement Techniques
- Advanced NMR Techniques and Applications
- Particle accelerators and beam dynamics
- Spectroscopy and Laser Applications
- Advanced Semiconductor Detectors and Materials
- Muon and positron interactions and applications
- CCD and CMOS Imaging Sensors
University of Bern
2023-2024
Abstract The novel SoLAr concept aims to extend sensitivities of liquid-argon neutrino detectors down the MeV scale for next-generation detectors. plans accomplish this with a time projection chamber that employs an anode plane dual charge and light readout, which enables precision matching signals data acquisition reconstruction purposes. We present results first demonstration detector small-scale prototype integrating pixel-based readout silicon photomultipliers on shared printed circuit...
Abstract SoLAr is a proposed liquid argon time projection chamber experiment that will be able to measure the “hep branch” of solar neutrinos. The scintillation light and deposited charge signals are collected on same readout plane contains combined grid silicon photon multipliers collection pixels. allows for millimeter-scale resolution matching. First prototypes were successfully operated in Bern, CH cosmic-rays. conceptual design SoLAr, advantages, first results discussed details this proceeding.
The novel SoLAr concept aims to extend sensitivities of liquid-argon neutrino detectors down the MeV scale for next-generation detectors. plans accomplish this with a time projection chamber that employs an anode plane dual charge and light readout, which enables precision matching signals data acquisition reconstruction purposes. We present results first demonstration detector small-scale prototype integrating pixel-based readout silicon photomultipliers on shared printed circuit board....
Detection of scintillation light in noble liquid detectors is necessary for identifying neutrino interaction candidates from beam, astrophysical, or solar sources. Large monolithic typically have highly efficient detectors, like photomultipliers, mounted outside their electric field. This option not available modular that wish to maximize active volume. The ArgonCube readout system (ArCLights) are large-area thin wavelength shifting (WLS) panels can operate proximate and within the WLS...
The detection of scintillation light in noble-liquid detectors is necessary for identifying neutrino interaction candidates from beam, astrophysical, or solar sources. Large monolithic typically have highly efficient sensors, like photomultipliers, mounted outside their electric field. This option not available modular that wish to maximize active volume. ArgonCube readout system (ArCLights) are large-area thin-wavelength-shifting (WLS) panels can operate proximate and within the WLS plastic...
Abstract Compact large-area dielectric photon detectors that ensure modular noble liquid can sense scintillation light signals for triggering and reconstruction purposes with minimal impact to the overall target volume. ArCLight is a small-volume, sizeable sensitive-area detector consists of trap covered in thin layer TPB be placed inside time projection chamber's electric field. These sensors are used Deep Underground Neutrino Experiment Near Detector argon (DUNE ND-LAr). They constructed...