_version_ 1866912515141664768
author Cartelle, Paula Alvarez
Anelli, Alessia
Balboni, Anna
Beck, Anja
Betti, Federico
Bex, Josh
Borgato, Federica
Calabrese, Roberto
Calvi, Marta
Cardinale, Roberta
Cavallero, Giovanni
Cojocariu, Lucian-Nicolae
Craik, Daniel
Dall'Occo, Elena
D'Ambrosio, Carmelo
Duk, Viacheslav
Fantini, Lisa
Ferrari, Fabio
Fiorini, Massimiliano
Franzoso, Edoardo
Frei, Christoph
Gambetta, Silvia
Ghizzo, Simon
Ghorbanimoghaddam, Zahra
Gotti, Claudio
Gys, Thierry
Jones, Christopher Robert
Juszczak, Izabela
Kane, Michael
Keizer, Floris
Kucharczyk, Marcin
Long, Thomas
Maciuc, Florin
Malentacca, Lorenzo
Martelli, Gabriele
Mauri, Andrea
McCann, Michael
Muheim, Franz
Niel, Elisabeth Maria
Okamura, Shinichi
Oliva, Federica
Papanestis, Antonis
Patel, Mitesh
Patoc, Jairus Tristan
Piccini, Mauro
Placinta, Vlad-Mihai
Rademacker, Jonas
Reich, Jake
Romolini, Gabriele
Sergi, Antonino
Simi, Gabriele
Smith, Mark
Swystun, Francesca
Tilquin, Hanae
Vrahas, Constantinos
Wilkinson, Guy
Williams, Richard
Witek, Mariusz
Wotton, Stephen
Xian, Shu
Yang, Youhua
author_facet Cartelle, Paula Alvarez
Anelli, Alessia
Balboni, Anna
Beck, Anja
Betti, Federico
Bex, Josh
Borgato, Federica
Calabrese, Roberto
Calvi, Marta
Cardinale, Roberta
Cavallero, Giovanni
Cojocariu, Lucian-Nicolae
Craik, Daniel
Dall'Occo, Elena
D'Ambrosio, Carmelo
Duk, Viacheslav
Fantini, Lisa
Ferrari, Fabio
Fiorini, Massimiliano
Franzoso, Edoardo
Frei, Christoph
Gambetta, Silvia
Ghizzo, Simon
Ghorbanimoghaddam, Zahra
Gotti, Claudio
Gys, Thierry
Jones, Christopher Robert
Juszczak, Izabela
Kane, Michael
Keizer, Floris
Kucharczyk, Marcin
Long, Thomas
Maciuc, Florin
Malentacca, Lorenzo
Martelli, Gabriele
Mauri, Andrea
McCann, Michael
Muheim, Franz
Niel, Elisabeth Maria
Okamura, Shinichi
Oliva, Federica
Papanestis, Antonis
Patel, Mitesh
Patoc, Jairus Tristan
Piccini, Mauro
Placinta, Vlad-Mihai
Rademacker, Jonas
Reich, Jake
Romolini, Gabriele
Sergi, Antonino
Simi, Gabriele
Smith, Mark
Swystun, Francesca
Tilquin, Hanae
Vrahas, Constantinos
Wilkinson, Guy
Williams, Richard
Witek, Mariusz
Wotton, Stephen
Xian, Shu
Yang, Youhua
contents The LHCb Ring-Imaging Cherenkov detectors are built to provide charged hadron identification over a large range of momentum. The upgraded detectors are also capable of providing an independent measurement of the luminosity for the LHCb experiment during LHC Run 3. The modelling of the opto-electronics chain, the application of the powering strategy during operations, the calibration procedures and the proof of principle of a novel technique for luminosity determination are presented. In addition, the preliminary precision achieved during the 2023 data-taking year for real-time and offline luminosity measurements is reported.
format Preprint
id arxiv_https___arxiv_org_abs_2503_05273
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Luminosity measurement with the LHCb RICH detectors in Run 3
Cartelle, Paula Alvarez
Anelli, Alessia
Balboni, Anna
Beck, Anja
Betti, Federico
Bex, Josh
Borgato, Federica
Calabrese, Roberto
Calvi, Marta
Cardinale, Roberta
Cavallero, Giovanni
Cojocariu, Lucian-Nicolae
Craik, Daniel
Dall'Occo, Elena
D'Ambrosio, Carmelo
Duk, Viacheslav
Fantini, Lisa
Ferrari, Fabio
Fiorini, Massimiliano
Franzoso, Edoardo
Frei, Christoph
Gambetta, Silvia
Ghizzo, Simon
Ghorbanimoghaddam, Zahra
Gotti, Claudio
Gys, Thierry
Jones, Christopher Robert
Juszczak, Izabela
Kane, Michael
Keizer, Floris
Kucharczyk, Marcin
Long, Thomas
Maciuc, Florin
Malentacca, Lorenzo
Martelli, Gabriele
Mauri, Andrea
McCann, Michael
Muheim, Franz
Niel, Elisabeth Maria
Okamura, Shinichi
Oliva, Federica
Papanestis, Antonis
Patel, Mitesh
Patoc, Jairus Tristan
Piccini, Mauro
Placinta, Vlad-Mihai
Rademacker, Jonas
Reich, Jake
Romolini, Gabriele
Sergi, Antonino
Simi, Gabriele
Smith, Mark
Swystun, Francesca
Tilquin, Hanae
Vrahas, Constantinos
Wilkinson, Guy
Williams, Richard
Witek, Mariusz
Wotton, Stephen
Xian, Shu
Yang, Youhua
High Energy Physics - Experiment
The LHCb Ring-Imaging Cherenkov detectors are built to provide charged hadron identification over a large range of momentum. The upgraded detectors are also capable of providing an independent measurement of the luminosity for the LHCb experiment during LHC Run 3. The modelling of the opto-electronics chain, the application of the powering strategy during operations, the calibration procedures and the proof of principle of a novel technique for luminosity determination are presented. In addition, the preliminary precision achieved during the 2023 data-taking year for real-time and offline luminosity measurements is reported.
title Luminosity measurement with the LHCb RICH detectors in Run 3
topic High Energy Physics - Experiment
url https://arxiv.org/abs/2503.05273