The DAMSA Experiment
Abstract
DAMSA (DArk Messenger Searches at an Accelerator) is a novel short-baseline accelerator/beam dump experiment aimed at probing short-lived physics processes, including searches for evidence of a dark sector of particle physics and well-motivated rare Standard Model signals. Motivated by open questions in neutrino physics and the absence of conclusive evidence for conventional weakly interacting massive particles, DAMSA targets MeV-to-sub-GeV dark-sector messengers with feeble couplings that can be produced in abundance at a beam dump/target. By employing an ultra-short baseline, DAMSA is uniquely positioned to overcome the beam-dump "ceiling" that limits sensitivity to fast decaying particles in longer-baseline experiments. The conceptual design emphasizes a beam-dump production scheme combined with a compact detector optimized for rare decays while mitigating intense neutron-induced backgrounds, inherent to high-power proton beams. To validate the experimental strategy and detector technologies, the DAMSA Path-Finder (DPF) proof-of-concept experiment is also proposed, focusing on axion-like particles decaying to two photons, as the benchmark physics case and operating with 8 GeV electron beams at SLAC Linac-to-ESA (LESA) facility. Successful realization of DPF will establish the feasibility of the DAMSA approach, enabling a broad and powerful program to explore short-lived new physics and precision Standard Model processes in a previously inaccessible regime. This paper outlines the technical details of DAMSA's physics goals, key experimental challenges, and how to overcome them.
Keywords
Cite
@article{arxiv.2604.28133,
title = {The DAMSA Experiment},
author = {Prithak Bhattarai and Andrew Brandt and Alan Bross and Bradley Brown and Samriddha Chakraborty and Haohui Che and Bhupal Dev and Bhaskar Dutta and Juan V. Estrada and Eric Garcia and Anthony Gomez and Gajendra Gurung and Brian Joshua Gomez Hernandez and Wooyoung Jang and Jay Hyun Jo and Krzysztof Jodłowski and Doojin Kim and Eunsu Kim and Hyunyong Kim and Shin Hyung Kim and Young-Kee Kim and Jing Liu and Chang-Seong Moon and Donna Naples and David Nygren and Minseok Oh and Vittorio Paolone and Hyangkyu Park and Jong-Chul Park and Nathaniel J. Pastika and Rohit Raut and Juergen Reichenbacher and Paul Rubinov and Eunsuk Seo and Veronika Shalamova and Seodong Shin and Melvin Shochet and Adrian Thompson and Yau Wah and Shawn Westerdale and Guang Yang and Un-Ki Yang and Inseok Yoon and Jaehoon Yu},
journal= {arXiv preprint arXiv:2604.28133},
year = {2026}
}
Comments
35 pages, 26 figures. arXiv admin note: substantial text overlap with arXiv:2601.15255