Shortcomings of Shapiro delay-based tests of the equivalence principle on cosmological scales

Johnson-McDaniel, Nathan K.; Sakellariadou, Mairi

doi:10.1103/physrevd.100.104047

Cited by 28 publications

(41 citation statements)

References 82 publications

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“…Eq. 6 is consistent (Minazzoli et al 2019b) up to at least ∼ 400 Mpc (𝑧 ∼ 0.1) when Shapiro Time Delay is calculated from observed galaxy clusters. Now, in this paper, we focus on a time lag under gravity between two photons with different energies.…”

Section: Theoretical Modelsupporting

confidence: 69%

“…If both the violation of WEP and Δ𝑡 DM show an equivalent dependence on 𝜈 −2 obs , the two effects are not distinguishable (Ioka 2003;Macquart et al 2020;Inoue 2004). Until now, current studies of FRBs or any other sources have not found any such violation due to frequency (Einstein 1908;Tingay & Kaplan 2016;Nusser 2016;Minazzoli et al 2019a;Xing et al 2019).…”

Section: Theoretical Modelmentioning

confidence: 98%

“…However, for huge cosmological distances where 𝑧 1, it is not the proper calculation. In fact, for cosmological sources, 𝑡 𝑔𝑟 𝑎 and Δ𝑡 𝑔𝑟 𝑎 do not have a monotonic increment, as shown in Minazzoli et al (2019a). Thus, to calculate Δ𝑡 𝑔𝑟 𝑎 , we have to consider all the gravitational sources in the path of the radiation.…”

Section: Theoretical Modelmentioning

confidence: 99%

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Constraining violations of the Weak Equivalence Principle Using CHIME FRBs

Sen,

Hashimoto,

Goto

et al. 2021

Preprint

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Einstein's General Relativity (GR) is the basis of modern astronomy and astrophysics. Testing the validity of basic assumptions of GR is important. In this work, we test a possible violation of the Weak Equivalence Principle (WEP), i.e., there might be a time-lag between photons of different frequencies caused by the effect of gravitational fields if the speeds of photons are slightly different at different frequencies. We use Fast Radio Bursts (FRBs) , which are astronomical transients with millisecond timescales detected in the radio frequency range. Being at cosmological distances, accumulated time delay of FRBs can be caused by the plasma in between an FRB source and an observer, and by gravitational fields in the path of the signal. We segregate the delay due to dispersion and gravitational field using the post-Newtonian formalism (PPN) parameter Δ𝛾, which defines the space-curvature due to gravity by a unit test mass. We did not detect any time-delay from FRBs but obtained tight constraints on the upper limit of Δ𝛾. For FRB20181117C with 𝑧 = 1.83 ± 0.28 and 𝜈 𝑜𝑏𝑠 = 676.5 MHz, the best possible constraint is obtained at log(Δ𝛾) = −21.58 +0.10 −0.12 and log(Δ𝛾/𝑟 E ) = −21.75 +0.10 −0.14 , respectively, where 𝑟 E is the energy ratio of two photons of the same FRB signal. This constraint is about one order of magnitude better than the previous constraint obtained with FRBs, and five orders tighter than any constraint obtained using other cosmological sources.

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Section: Theoretical Modelsupporting

confidence: 69%

Section: Theoretical Modelmentioning

confidence: 98%

Section: Theoretical Modelmentioning

confidence: 99%

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Constraining violations of the Weak Equivalence Principle Using CHIME FRBs

Sen,

Hashimoto,

Goto

et al. 2021

Preprint

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“…(36) uses an implicit coordinate system that is not gaugeinvariant, i.e., depending on the coordinate choice one can obtain positive or negative values (Gao and Wald 2000). In Minazzoli et al (2019) they consider Fermi coordinates associated to an observer, such that the delay is expressed in terms of an observed proper time, which results in a sum of terms with opposing sign. Using reasonable constructions for contributions to the total gravitational well experienced by propagating particles by considering the sum of catalogs they show the induced total (absolute) Shapiro delay is not monotonic, and indeed crosses zero in some cases.…”

Section: The Weak Equivalence Principlementioning

confidence: 99%

“…Therefore, while we can use the small offsets for, e.g., GW-GRBs to state that we find no evidence for WEP violation, we cannot quantify robust limits on relative Shapiro delay. Minazzoli et al (2019) suggest this as motivation for the development of tests for specific alternative theories of gravity. We note that if the WEP is violated we will find evidence for it, we will just be unable to quantify the degree of violation with this test.…”

Section: The Weak Equivalence Principlementioning

confidence: 99%

Neutron star mergers and how to study them

Burns

2020

Living Rev Relativ

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Neutron star mergers are the canonical multimessenger events: they have been observed through photons for half a century, gravitational waves since 2017, and are likely to be sources of neutrinos and cosmic rays. Studies of these events enable unique insights into astrophysics, particles in the ultrarelativistic regime, the heavy element enrichment history through cosmic time, cosmology, dense matter, and fundamental physics. Uncovering this science requires vast observational resources, unparalleled coordination, and advancements in theory and simulation, which are constrained by our current understanding of nuclear, atomic, and astroparticle physics. This review begins with a summary of our current knowledge of these events, the expected observational signatures, and estimated detection rates for the next decade. I then present the key observations necessary to advance our understanding of these sources, followed by the broad science this enables. I close with a discussion on the necessary future capabilities to fully utilize these enigmatic sources to understand our universe.

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Gravitational Waves

Sakellariadou

2021

Modified Gravity and Cosmology

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Shortcomings of Shapiro delay-based tests of the equivalence principle on cosmological scales

Cited by 28 publications

References 82 publications

Constraining violations of the Weak Equivalence Principle Using CHIME FRBs

Constraining violations of the Weak Equivalence Principle Using CHIME FRBs

Neutron star mergers and how to study them

Gravitational Waves

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