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Abstract
The Pacific Ocean Neutrino Experiment (P-ONE) is a planned cubic-kilometer-scale Cherenkov neutrino telescope to be deployed off the west coast of Canada. Designed to detect ultra? high-energy neutrinos (10³–10⁸ GeV) from astrophysical sources, P-ONE requires accurate simulations of neutrino interactions and background sources to evaluate its performance and support future analyses. This talk will first introduce the current development status of P-ONE, then provide an overview of the key components involved in the simulation of water-based neutrino telescopes—with a focus on the detailed analysis of the characterization and simulation of bioluminescence backgrounds, and finally conclude with a discussion on potential triggering strategies.
Biography
Ruohan Li is a Ph.D. candidate in experimental particle physics at the Technical University of Munich (TUM). She is a member of the IceCube and P-ONE collaborations and is involved in the Collaborative Research Centres (CRC) on Astro- and Particle Physics. Her research interests include high-energy neutrino source searches, multi-messenger phenomena associated with supermassive black holes, and the characterization of bioluminescent backgrounds in deep-sea neutrino telescopes.
Online link:
ID: 460 674 769
PW: 123456
link: https://meeting.tencent.com/dm/0CDW8G3hWIAh