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Bibliographic Details
Main Author: ANUBIS Collaboration
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.26932
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author ANUBIS Collaboration
author_facet ANUBIS Collaboration
contents Long-lived particles (LLPs), i.e., particles with macroscopic lifetimes $τ>10$~ns, appear in various extensions of the Standard Model (SM) that address fundamental questions like the particulate nature of dark matter or baryogenesis. The ANUBIS detector will achieve unprecedented sensitivity to such models compared to existing and approved experiments by instrumenting a large decay volume adjacent to the ATLAS experiment at the High-Luminosity LHC with tracking detectors. This paper outlines the proposed detector layouts for ANUBIS, explores their physics potential with a scalar LLP model, and identifies the preferred layout, comparing it to other experiments. The potential background contributions to ANUBIS are estimated using a data-driven method, and the topology of potential background events is studied using Monte Carlo simulations. Overall, ANUBIS is expected to probe branching ratios down to $\mathcal{O}$(10$^{-6})$ for exotic decays of the Higgs boson to scalar long-lived particles with masses of 10, 15, 40, and 60 GeV and proper lifetimes of $cτ=2.4,\, 3.0,\, 12$, and 18 m, respectively. Moreover, for branching ratios of 0.1\% of the Higgs boson into long-lived scalars with a mass of 15 GeV, ANUBIS can probe a $cτ$ range between $1.1\times10^{-1}$~m and $4.0\times10^3$~m.
format Preprint
id arxiv_https___arxiv_org_abs_2510_26932
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The ANUBIS detector and its sensitivity to neutral long-lived particles
ANUBIS Collaboration
High Energy Physics - Experiment
Long-lived particles (LLPs), i.e., particles with macroscopic lifetimes $τ>10$~ns, appear in various extensions of the Standard Model (SM) that address fundamental questions like the particulate nature of dark matter or baryogenesis. The ANUBIS detector will achieve unprecedented sensitivity to such models compared to existing and approved experiments by instrumenting a large decay volume adjacent to the ATLAS experiment at the High-Luminosity LHC with tracking detectors. This paper outlines the proposed detector layouts for ANUBIS, explores their physics potential with a scalar LLP model, and identifies the preferred layout, comparing it to other experiments. The potential background contributions to ANUBIS are estimated using a data-driven method, and the topology of potential background events is studied using Monte Carlo simulations. Overall, ANUBIS is expected to probe branching ratios down to $\mathcal{O}$(10$^{-6})$ for exotic decays of the Higgs boson to scalar long-lived particles with masses of 10, 15, 40, and 60 GeV and proper lifetimes of $cτ=2.4,\, 3.0,\, 12$, and 18 m, respectively. Moreover, for branching ratios of 0.1\% of the Higgs boson into long-lived scalars with a mass of 15 GeV, ANUBIS can probe a $cτ$ range between $1.1\times10^{-1}$~m and $4.0\times10^3$~m.
title The ANUBIS detector and its sensitivity to neutral long-lived particles
topic High Energy Physics - Experiment
url https://arxiv.org/abs/2510.26932