DAMSA Experiment Conceptual Design White Paper

TL;DR

DAMSA is a novel short-baseline accelerator experiment designed to detect short-lived particles from the dark sector and Standard Model processes, using a compact setup to overcome limitations of longer-baseline experiments.

Contribution

This paper presents the conceptual design of DAMSA, a new approach employing an ultra-short baseline and innovative detector technology to explore short-lived physics phenomena.

Findings

Proposes a beam-dump production scheme with a compact detector.

Introduces the Little DAMSA Path-Finder for feasibility validation.

Aims to explore previously inaccessible short-lived particle regimes.

Abstract

DAMSA (DArk Messenger Searches at an Accelerator) is a novel short-baseline accelerator experiment aimed at probing short-lived physics processes, including searches for evidence of a dark sector of particle physics and well-motivated 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 the PIP-II LINAC. By employing an ultra-short baseline of order one meter, DAMSA is uniquely positioned to overcome the beam-dump "ceiling" that limits sensitivity to promptly 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 Little DAMSA Path-Finder (LDPF) proof-of-concept experiment is proposed, focusing on axion-like particles decaying to two photons and operating with 300 MeV electron beams at FAST. Successful realization of LDPF 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 conceptual design document outlines the technical details of DAMSA's physics goals, the beam facility proposals, key experimental challenges and how to overcome them, and the proposed experimental staging campaigns.