Quizz :
https://belle2.ijs.si/masterclass/quiz.php
Vidéos pédagogiques :
L’expérience Belle II (8′, en Anglais) : http://www1.phys.vt.edu/~piilonen/movies/KEK_eng_short_1029.mp4
One day with a particle physicist (30′, en Anglais) : https://www.youtube.com/watch?v=e0Lv2GrsXig&feature=youtu.be
Tour of the Belle II experiment (10′, en Anglais) : https://istnazfisnucl-my.sharepoint.com/:v:/g/personal/forti_infn_it/EdXqH1QSVjdLnBD8pIiAJL0BPc3eD4dpxuyi8XhgxLbb2Q
Display de collisions de Belle II :
https://evdisp.belle2.org/
Quelques photos des Masterclasses Belle II 2023 : https://seafile.unistra.fr/d/42b467a0dbae4d40b193/
https://seafile.unistra.fr/d/42b467a0dbae4d40b193/
https://indico.in2p3.fr/event/37591/
Début : 12/03/2026 à 08:30
Fin : 12/03/2026 à 17:15
Prochains évènements
Retour à l'agendaSeminaire DRS: DAMIC-M / skipper CCD
Speakers: Xavier Bertou (IJCLab) https://indico.in2p3.fr/event/38024/
Skipper sensors: from world-leading Dark Sector limits in DAMIC-M to the future of low-noise imaging?
Speakers: Xavier Bertou (IJCLab) Skipper CCD technology has recently unlocked unprecedented sensitivity to ionization signals as faint as a single electron, enabling new frontiers in direct dark matter searches. As a result, the DAMIC-M experiment at the Modane Underground Laboratory, based on Skipper CCDs, has delivered the most stringent constraints to date on sub-MeV dark matter interacting with electrons, probing both freeze-out and freeze-in scenarios in the dark sector for the first time. While Skipper CCDs represent a technological breakthrough by overcoming the readout noise floor of conventional CCDs, they do so at the cost of readout time. New recent improvements, including MAS-CCD, SiSeRO, and CMOS Skipper architectures, combine faster readout with Skipper-level performance. I will detail those and focus on the possibility of designing a future low-noise imager using Skipper CMOS technology. https://indico.in2p3.fr/event/38024/