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Hauptverfasser: Li, Wenlin, Zhao, Chengsong, Eshaqi-Sani, Najmeh, Jiang, Zhiyu, Li, Xingli
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2510.07844
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author Li, Wenlin
Zhao, Chengsong
Eshaqi-Sani, Najmeh
Jiang, Zhiyu
Li, Xingli
author_facet Li, Wenlin
Zhao, Chengsong
Eshaqi-Sani, Najmeh
Jiang, Zhiyu
Li, Xingli
contents A tenet of contemporary physics is that novel physics beyond the Standard Model lurks at a scale related to the Planck length. The development and validation of a unified framework that merges general relativity and quantum physics is contingent upon the observation of Planck-scale physics. Here, we present a fully quantum model for measuring the nonstationary dynamics of a ng-mass mechanical resonator, which will slightly deviate from the predictions of standard quantum mechanics induced by modified commutation relations associated with quantum gravity effects at low-energy scalar. The deformed commutator is quantified by the oscillation frequency deviation, which is amplified by the nonlinear mechanism of the detection field. The measurement resolution is optimized to a precision level that is $15$ orders of magnitude below the electroweak scale.
format Preprint
id arxiv_https___arxiv_org_abs_2510_07844
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The detection of Planck-scale physics facilitated by nonlinear quantum optics
Li, Wenlin
Zhao, Chengsong
Eshaqi-Sani, Najmeh
Jiang, Zhiyu
Li, Xingli
Quantum Physics
General Relativity and Quantum Cosmology
A tenet of contemporary physics is that novel physics beyond the Standard Model lurks at a scale related to the Planck length. The development and validation of a unified framework that merges general relativity and quantum physics is contingent upon the observation of Planck-scale physics. Here, we present a fully quantum model for measuring the nonstationary dynamics of a ng-mass mechanical resonator, which will slightly deviate from the predictions of standard quantum mechanics induced by modified commutation relations associated with quantum gravity effects at low-energy scalar. The deformed commutator is quantified by the oscillation frequency deviation, which is amplified by the nonlinear mechanism of the detection field. The measurement resolution is optimized to a precision level that is $15$ orders of magnitude below the electroweak scale.
title The detection of Planck-scale physics facilitated by nonlinear quantum optics
topic Quantum Physics
General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2510.07844