Conveners
Posters presentation
- Franz Muheim (The University of Edinburgh (GB))
Description
Presentation of the posters, in the following order:
Joao Pedro Athayde Marcondes De Andre
Neutrino mass ordering determination through combined analysis with JUNO and KM3NeT/ORCA
Emily Baldwin
Simulating the Effect of External Magnetic Fields on Microchannel Plates
Alessandro Petrolini
Optical Systems For Future RICH Detectors
Lucian Nicolae Cojocariu
A 32-channel TDC Implemented on an FPGA for Photodetector Timing Studies
Carmen Giugliano
Quality Assurance procedures for the LHCb RICH Upgrade
Floris Keizer
From the FastIC ASIC to FastRICH, A Readout Chip for the Upgrade of the LHCb RICH Detector
Steven Leach
Characterisation of Cherenkov Optimised Silicon Photomultipliers Following Long Duration Operation
Andrej Lozar
Study of new aerogel radiators for the LHCb RICH upgrade
Davide Mollica
MUCH: a compact Imaging Atmospheric Cherenkov Telescope for volcano muography
Anja Novosel
Image Based Particle Identification at Low Momenta
Stephan O'Brien, David Hanna
Calibration of the Aerogel radiator tiles for the RICH of the HELIX Experiment
Rok Pestotnik
Slow control of the Belle II Aerogel Ring Imaging detector
Pavish Subramani
Qualification of DIRICH readout chain
Umberto Tamponi
STOPGAP - a Time-of-Flight Extension for the Belle II TOP Barrel PID System
Simone Vallarino
The dual Ring Imaging Cherenkov detector for the Electron-Ion Collider
Zoom connection
Gayane Ghevondyan
ARICH performance study in the Belle II experiment
Ivan Sidelnik
The capability of water Cherenkov detectors arrays of the LAGO project to detect Gamma-Ray Burst and High Energy Astrophysics sources
Ticiano Jorge Torres Peralta
Particle Classification in the LAGO Water Cherenkov Detectors using Clustering Algorithms
Luis Otiniano
Measurement of the Muon Lifetime and the Michel Spectrum in the LAGO Water Cherenkov Detectors as a tool to improve energy calibration and to enhance the signal-to-noise ratio
Special mention
Elena Cherenkova
Details of the study of the superluminal electrons
