Testing nonlocal gravity with Lunar Laser Ranging

Enis Belgacem; Andreas Finke; Antonia Frassino; Michele Maggiore

doi:10.48550/arXiv.1812.11181

Testing nonlocal gravity with Lunar Laser Ranging

Enis Belgacem, Andreas Finke, Antonia Frassino, Michele Maggiore

Research output: Working paper › Preprint › Academic

Abstract

We study the impact of the limit on $|\dot{G}|/G$ from Lunar Laser Ranging on "nonlocal gravity", i.e. on models of the quantum effective action of gravity that include nonlocal terms relevant in the infrared, such as the "RR" and "RT" models proposed by our group, and the Deser-Woodard (DW) model. We elaborate on the analysis of Barreira et al. [1] and we confirm their findings that (under plausible assumptions such as the absence of strong backreaction from non-linear structures), the RR model is ruled out. We also show that the mechanism of "perfect screening for free" suggested for the DW model actually does not work and the DW model is also ruled out. In contrast, the RT model passes all phenomenological consistency tests and is still a viable candidate.

Original language	English
Publisher	arXiv
Pages	1-46
DOIs	https://doi.org/10.48550/arXiv.1812.11181
Publication status	Published - 28 Dec 2018

Bibliographical note

46 pages, 4 figures

Keywords

gr-qc
astro-ph.CO
hep-th

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1812.11181v1Submitted manuscript, 912 KB

https://arxiv.org/abs/1812.11181

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title = "Testing nonlocal gravity with Lunar Laser Ranging",

abstract = " We study the impact of the limit on $|\dot{G}|/G$ from Lunar Laser Ranging on {"}nonlocal gravity{"}, i.e. on models of the quantum effective action of gravity that include nonlocal terms relevant in the infrared, such as the {"}RR{"} and {"}RT{"} models proposed by our group, and the Deser-Woodard (DW) model. We elaborate on the analysis of Barreira et al. [1] and we confirm their findings that (under plausible assumptions such as the absence of strong backreaction from non-linear structures), the RR model is ruled out. We also show that the mechanism of {"}perfect screening for free{"} suggested for the DW model actually does not work and the DW model is also ruled out. In contrast, the RT model passes all phenomenological consistency tests and is still a viable candidate. ",

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T1 - Testing nonlocal gravity with Lunar Laser Ranging

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AU - Finke, Andreas

AU - Frassino, Antonia

AU - Maggiore, Michele

N1 - 46 pages, 4 figures

PY - 2018/12/28

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N2 - We study the impact of the limit on $|\dot{G}|/G$ from Lunar Laser Ranging on "nonlocal gravity", i.e. on models of the quantum effective action of gravity that include nonlocal terms relevant in the infrared, such as the "RR" and "RT" models proposed by our group, and the Deser-Woodard (DW) model. We elaborate on the analysis of Barreira et al. [1] and we confirm their findings that (under plausible assumptions such as the absence of strong backreaction from non-linear structures), the RR model is ruled out. We also show that the mechanism of "perfect screening for free" suggested for the DW model actually does not work and the DW model is also ruled out. In contrast, the RT model passes all phenomenological consistency tests and is still a viable candidate.

AB - We study the impact of the limit on $|\dot{G}|/G$ from Lunar Laser Ranging on "nonlocal gravity", i.e. on models of the quantum effective action of gravity that include nonlocal terms relevant in the infrared, such as the "RR" and "RT" models proposed by our group, and the Deser-Woodard (DW) model. We elaborate on the analysis of Barreira et al. [1] and we confirm their findings that (under plausible assumptions such as the absence of strong backreaction from non-linear structures), the RR model is ruled out. We also show that the mechanism of "perfect screening for free" suggested for the DW model actually does not work and the DW model is also ruled out. In contrast, the RT model passes all phenomenological consistency tests and is still a viable candidate.

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KW - hep-th

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BT - Testing nonlocal gravity with Lunar Laser Ranging

PB - arXiv

ER -

Testing nonlocal gravity with Lunar Laser Ranging

Abstract

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Keywords

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