Probing millicharged particles at an electron beam dump with ultralow-threshold sensors

Rouven Essig; Peiran Li; Zhen Liu; Megan McDuffie; Ryan Plestid; Hailin Xu

doi:10.1007/JHEP04(2025)057

Probing millicharged particles at an electron beam dump with ultralow-threshold sensors

Rouven Essig
, Peiran Li
, Zhen Liu
, Megan McDuffie
, Ryan Plestid
, Hailin Xu

Physics and Astronomy (Twin Cities)

Research output: Contribution to journal › Article › peer-review

Abstract

We propose to search for millicharged particles produced in high-intensity electron beam dumps using small ultralow-threshold sensors. As a concrete example, we consider a Skipper-CCD placed behind the beam dump in Hall A at Jefferson Lab. We compute the millicharged particle flux, including both electromagnetic cascade and meson productions emanating from an aluminum target. We find that the sensitivity of a modest 2 × 14 array of Skipper-CCDs can exceed the sensitivity of all existing searches for millicharged particle masses below 1.5 GeV, and is either competitive or world leading when compared to other proposed experiments. Our results demonstrate that small-scale ultralow threshold silicon devices can enhance the reach of accelerator-based experiments, while fitting comfortably within existing experimental halls.

Original language	English (US)
Article number	57
Journal	Journal of High Energy Physics
Volume	2025
Issue number	4
DOIs	https://doi.org/10.1007/JHEP04(2025)057
State	Published - Apr 2025

Bibliographical note

Publisher Copyright:
© The Author(s) 2025.

Keywords

Dark Matter at Colliders
New Light Particles
Specific BSM Phenomenology

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10.1007/JHEP04(2025)057

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abstract = "We propose to search for millicharged particles produced in high-intensity electron beam dumps using small ultralow-threshold sensors. As a concrete example, we consider a Skipper-CCD placed behind the beam dump in Hall A at Jefferson Lab. We compute the millicharged particle flux, including both electromagnetic cascade and meson productions emanating from an aluminum target. We find that the sensitivity of a modest 2 × 14 array of Skipper-CCDs can exceed the sensitivity of all existing searches for millicharged particle masses below 1.5 GeV, and is either competitive or world leading when compared to other proposed experiments. Our results demonstrate that small-scale ultralow threshold silicon devices can enhance the reach of accelerator-based experiments, while fitting comfortably within existing experimental halls.",

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author = "Rouven Essig and Peiran Li and Zhen Liu and Megan McDuffie and Ryan Plestid and Hailin Xu",

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AU - Essig, Rouven

AU - Li, Peiran

AU - Liu, Zhen

AU - McDuffie, Megan

AU - Plestid, Ryan

AU - Xu, Hailin

N1 - Publisher Copyright: © The Author(s) 2025.

PY - 2025/4

Y1 - 2025/4

N2 - We propose to search for millicharged particles produced in high-intensity electron beam dumps using small ultralow-threshold sensors. As a concrete example, we consider a Skipper-CCD placed behind the beam dump in Hall A at Jefferson Lab. We compute the millicharged particle flux, including both electromagnetic cascade and meson productions emanating from an aluminum target. We find that the sensitivity of a modest 2 × 14 array of Skipper-CCDs can exceed the sensitivity of all existing searches for millicharged particle masses below 1.5 GeV, and is either competitive or world leading when compared to other proposed experiments. Our results demonstrate that small-scale ultralow threshold silicon devices can enhance the reach of accelerator-based experiments, while fitting comfortably within existing experimental halls.

AB - We propose to search for millicharged particles produced in high-intensity electron beam dumps using small ultralow-threshold sensors. As a concrete example, we consider a Skipper-CCD placed behind the beam dump in Hall A at Jefferson Lab. We compute the millicharged particle flux, including both electromagnetic cascade and meson productions emanating from an aluminum target. We find that the sensitivity of a modest 2 × 14 array of Skipper-CCDs can exceed the sensitivity of all existing searches for millicharged particle masses below 1.5 GeV, and is either competitive or world leading when compared to other proposed experiments. Our results demonstrate that small-scale ultralow threshold silicon devices can enhance the reach of accelerator-based experiments, while fitting comfortably within existing experimental halls.

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KW - New Light Particles

KW - Specific BSM Phenomenology

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JO - Journal of High Energy Physics

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Probing millicharged particles at an electron beam dump with ultralow-threshold sensors

Abstract

Bibliographical note

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