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Main Authors: Hu, Li, Cai, Rong-Gen, He, Song, Li, Li-Fang, Liu, Tong, Xu, Peng, Wang, Shao-Jiang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.24622
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author Hu, Li
Cai, Rong-Gen
He, Song
Li, Li-Fang
Liu, Tong
Xu, Peng
Wang, Shao-Jiang
author_facet Hu, Li
Cai, Rong-Gen
He, Song
Li, Li-Fang
Liu, Tong
Xu, Peng
Wang, Shao-Jiang
contents Scalar-tensor gravity represents a natural extension of general relativity. This paper investigates a conformal scalar-tensor gravity, the environmentally dependent dilaton model, and identifies regions of its parameter space potentially constrained by future experiments using atomic clocks to measure gravitational redshift. We propose an experimental scheme in which atomic clocks are placed in environments of different mass densities, such as ultrahigh vacuum, water, or osmium, and their frequency shifts are compared to probe the scalar field contribution to gravitational redshift. By further modeling the mass distribution in low-density environments with a discrete representation, we go beyond the standard continuous approximation. Despite limitations inherent to specific experimental configurations, our analysis reveals that a significant portion of the parameter space remains accessible. Importantly, the accessible regions are complementary to those constrained by existing tests, as they are primarily sensitive to relatively weak couplings. Consequently, high-precision gravitational redshift experiments hold the potential to exclude significant regions of this parameter space in the future.
format Preprint
id arxiv_https___arxiv_org_abs_2509_24622
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Prospect on constraining environment-dependent dilaton model from gravitational redshift measurements
Hu, Li
Cai, Rong-Gen
He, Song
Li, Li-Fang
Liu, Tong
Xu, Peng
Wang, Shao-Jiang
General Relativity and Quantum Cosmology
High Energy Physics - Phenomenology
Scalar-tensor gravity represents a natural extension of general relativity. This paper investigates a conformal scalar-tensor gravity, the environmentally dependent dilaton model, and identifies regions of its parameter space potentially constrained by future experiments using atomic clocks to measure gravitational redshift. We propose an experimental scheme in which atomic clocks are placed in environments of different mass densities, such as ultrahigh vacuum, water, or osmium, and their frequency shifts are compared to probe the scalar field contribution to gravitational redshift. By further modeling the mass distribution in low-density environments with a discrete representation, we go beyond the standard continuous approximation. Despite limitations inherent to specific experimental configurations, our analysis reveals that a significant portion of the parameter space remains accessible. Importantly, the accessible regions are complementary to those constrained by existing tests, as they are primarily sensitive to relatively weak couplings. Consequently, high-precision gravitational redshift experiments hold the potential to exclude significant regions of this parameter space in the future.
title Prospect on constraining environment-dependent dilaton model from gravitational redshift measurements
topic General Relativity and Quantum Cosmology
High Energy Physics - Phenomenology
url https://arxiv.org/abs/2509.24622