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Main Authors: Tang, Ziqian, Li, Wenlong, Sun, Huanying, Cai, Xiaoxia, Li, Tiefu, Liu, Yulong
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.13398
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author Tang, Ziqian
Li, Wenlong
Sun, Huanying
Cai, Xiaoxia
Li, Tiefu
Liu, Yulong
author_facet Tang, Ziqian
Li, Wenlong
Sun, Huanying
Cai, Xiaoxia
Li, Tiefu
Liu, Yulong
contents Exploring gravitational interactions between objects with small masses has become increasingly timely. Concurrently, oscillators with masses ranging between milligrams and grams in cavity optomechanical systems sparked interest for probing gravity, and even investigating gravity within macroscopic quantum systems. Here we present a measurement scheme for probing gravity in a microwave optomechanical setup that incorporates periodic gravitational modulation between the test mass and the driven source mass at the milligram scale. Optomechanically induced transparency (OMIT) can be utilized to sense the gravitational interactions between test masses and source masses. Specifically, the relative variation in the height of the OMIT peak, expressed as $|1 + re^{iϕ}|^2 - 1$, where $r$ represents the ratio of the amplitude of the gravitational driving force to the radiation pressure force of the probe tone, and $ϕ$ denotes their phase difference, can reach up to 2.3\% under plausible experimental conditions. This work may facilitate cavity-optomechanical probing of gravitational coupling between milligram-scale mechanical oscillators, a mass regime where quantum and gravitational effects converge.
format Preprint
id arxiv_https___arxiv_org_abs_2506_13398
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Cavity Optomechanical Probe of Gravity Between Massive Mechanical Oscillators
Tang, Ziqian
Li, Wenlong
Sun, Huanying
Cai, Xiaoxia
Li, Tiefu
Liu, Yulong
Quantum Physics
Exploring gravitational interactions between objects with small masses has become increasingly timely. Concurrently, oscillators with masses ranging between milligrams and grams in cavity optomechanical systems sparked interest for probing gravity, and even investigating gravity within macroscopic quantum systems. Here we present a measurement scheme for probing gravity in a microwave optomechanical setup that incorporates periodic gravitational modulation between the test mass and the driven source mass at the milligram scale. Optomechanically induced transparency (OMIT) can be utilized to sense the gravitational interactions between test masses and source masses. Specifically, the relative variation in the height of the OMIT peak, expressed as $|1 + re^{iϕ}|^2 - 1$, where $r$ represents the ratio of the amplitude of the gravitational driving force to the radiation pressure force of the probe tone, and $ϕ$ denotes their phase difference, can reach up to 2.3\% under plausible experimental conditions. This work may facilitate cavity-optomechanical probing of gravitational coupling between milligram-scale mechanical oscillators, a mass regime where quantum and gravitational effects converge.
title Cavity Optomechanical Probe of Gravity Between Massive Mechanical Oscillators
topic Quantum Physics
url https://arxiv.org/abs/2506.13398