Conveners
WG4 Calorimery
- Héctor Alvarez Pol (IGFAE - USC)
- Mary-Cruz Fouz (CIEMAT)
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Dr Héctor Alvarez Pol (IGFAE - USC), Dr Mary-Cruz Fouz (CIEMAT)02/02/2026, 15:00
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Emilio Mendoza Cembranos (CIEMAT - Centro de Investigaciones Energéticas Medioambientales y Tec. (ES))02/02/2026, 15:08WG4 Calorimery
Electromagnetic calorimeters are frequently used in nuclear physics experiments. Their purpose is to detect all or most of the energy emitted as photons in nuclear reactions or radioactive decays. Their advantage is that the total energy of an electromagnetic cascade is much better known than the individual energies and multiplicities of the gamma rays and electrons. In this presentation, we...
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Dr Mary-Cruz Fouz (CIEMAT)02/02/2026, 15:25WG4 Calorimery
Highly segmented calorimeters are among the most promising detector technologies for achieving a significant improvement in jet energy resolution at future collider experiments through the use of Particle Flow Algorithms (PFA). By combining fine-grained calorimetric information with precise tracking, PFA-based reconstruction enables an unprecedented separation of charged and neutral particle...
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Dr Pietro Vischia (Universidad de Oviedo and Instituto de Ciencias y Tecnologías Espaciales de Asturias (ICTEA))02/02/2026, 15:43WG4 Calorimery
PHINDER, short for Picosecond-scale Photonic Heterogeneous Integrated Neuromorphic Detector, is an EIC Pathfinder Open project recently funded by the EU. PHINDER aims to develop new types of neuromorphic photonic sensor systems capable of analysing light from complex processes at the picosecond level (trillionths of a second), while consuming extremely low amounts of energy. The project...
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