The muEDM experiment at Paul Scherrer Institute is designed to reach an unprecedented sensitivity on the electric-dipole moment of the muon (muEDM): dμ<6×10−23 e cm. A precursor of the experiment is being built to demonstrate the potentials of the newly proposed ”frozen-spin technique” to measure the muEDM and will be operational in 2026. We present the status of the design of a novel scintillating fiber tracker for the positron reconstruction.
Design of a novel scintillating fibers tracker for the muEDM experiment
A. Venturini;A. M. Baldini;H. Benmansour;L. Bianco;F. Cei;M. Chiappini;M. Francesconi;L. Galli;E. G. Grandoni;M. Grassi;F. Leonetti;A. Papa;D. Pasciuto;M. E. Tegano;
2025-01-01
Abstract
The muEDM experiment at Paul Scherrer Institute is designed to reach an unprecedented sensitivity on the electric-dipole moment of the muon (muEDM): dμ<6×10−23 e cm. A precursor of the experiment is being built to demonstrate the potentials of the newly proposed ”frozen-spin technique” to measure the muEDM and will be operational in 2026. We present the status of the design of a novel scintillating fiber tracker for the positron reconstruction.File in questo prodotto:
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