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Main Authors: Zhang, Z. H., Hu, J. W., Geng, X. P., Liu, F. L.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2502.02894
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author Zhang, Z. H.
Hu, J. W.
Geng, X. P.
Liu, F. L.
Zhang, Z. H.
author_facet Zhang, Z. H.
Hu, J. W.
Geng, X. P.
Liu, F. L.
Zhang, Z. H.
contents Approximately 60 years after the Milligan oil drop experiment in 1909, fractionally charged particles (FCPs) were reported to have been discovered in air-shower cores, and the search for FCPs continues to the present day in space, terrestrial and underground experiments. In this letter, relativistic FCPs are examined as lightly ionizing particles in underground direct detection on the basis of electron recoil data from XENON-nT. For FCPs from supernova shocks, the best results are obtained via direct detection, excluding the FCP charge of $\left(3.6\times10^{-9} - 1.0\times10^{-2}\right)\cdot e$ corresponding to an FCP mass of 1 keV--556 GeV. For FCPs from general sources, the best limit is achieved, which is far ahead of other results in almost the entire parameter space, by excluding the FCP flux of $\left(4.0\times10^{-4} - 4.0\times10^{-16}\right)$ cm$^{-2}\cdot$ s$^{-1}\cdot$ sr$^{-1}$ corresponding to the FCP charge of $\left(1\times10^{-6} - 1\right)\cdot e$.
format Preprint
id arxiv_https___arxiv_org_abs_2502_02894
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Search for fractionally charged particles as lightly ionizing particles using public data from an underground direct detection experiment
Zhang, Z. H.
Hu, J. W.
Geng, X. P.
Liu, F. L.
Zhang, Z. H.
High Energy Physics - Experiment
Approximately 60 years after the Milligan oil drop experiment in 1909, fractionally charged particles (FCPs) were reported to have been discovered in air-shower cores, and the search for FCPs continues to the present day in space, terrestrial and underground experiments. In this letter, relativistic FCPs are examined as lightly ionizing particles in underground direct detection on the basis of electron recoil data from XENON-nT. For FCPs from supernova shocks, the best results are obtained via direct detection, excluding the FCP charge of $\left(3.6\times10^{-9} - 1.0\times10^{-2}\right)\cdot e$ corresponding to an FCP mass of 1 keV--556 GeV. For FCPs from general sources, the best limit is achieved, which is far ahead of other results in almost the entire parameter space, by excluding the FCP flux of $\left(4.0\times10^{-4} - 4.0\times10^{-16}\right)$ cm$^{-2}\cdot$ s$^{-1}\cdot$ sr$^{-1}$ corresponding to the FCP charge of $\left(1\times10^{-6} - 1\right)\cdot e$.
title Search for fractionally charged particles as lightly ionizing particles using public data from an underground direct detection experiment
topic High Energy Physics - Experiment
url https://arxiv.org/abs/2502.02894