This is the repository that contains the codes as well as useful comments that reproduce the figures of arxiv:1907.03176. The Mathematica code weaker_gravity (in .zip format) reproduces figures 3-9 as well as figure 12.
The folders MGCAMB-eff_newt_const and MGCosmoMC-eff_newt_const contain only the modified files of MGCAMB 2019 and MGCOSMOMC 2019 packages in order to reproduce figures 10 and 11 respectively.
Dynamical observational probes of the growth of density perturbations indicate that gravity may be getting weaker at low redshifts z. This evidence is at about 2-3σ level and comes mainly from weak lensing data that measure the parameter and redshift space distortion data that measure the growth rate times the amplitude of the linear power spectrum parameter fσ8(z). The measured fσ8(z) appears to be lower than the prediction of General Relativity (GR) in the context of the standard ΛCDM model as defined by the Planck best fit parameter values. This is the well known fσ8 tension of ΛCDM, which constitutes one of the two main large scale challenges of the model along with the H0 tension. We review the observational evidence that leads to the fσ8 tension and discuss some theoretical implications. If this tension is not a systematic effect it may be an early hint of modified gravity with an evolving effective Newton's constant Geff and gravitational slip parameter η. We discuss such best fit parametrizations of Geff and point out that they can not be reproduced by simple scalar-tensor and f(R) modified gravity theories because these theories generically predict stronger gravity than General Relativity (GR) at low z in the context of a ΛCDM background H(z). Finally, we show weak evidence for an evolving reduced absolute magnitude of the SnIa of the Pantheon dataset at low redshifts (
) which may also be explained by a reduced strength of gravity and may help resolve the H0 tension.
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Install the MGCAMB and MGCOSMOMC packages as it is decribed in the official repositories.
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Substitute the appropriate files with the corresponding ones inside the folders MGCAMB-eff_newt_const and MGCosmoMC-eff_newt_const
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Run on your terminal:
make clean
makewhich compile the MGCAMB and MGCOSMOMC packages. Wait until everything is finished. After that you are good to go!
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Concerning the MGCAMB package the main modifications were performed in the
params_CMB_MG.inifiles. For each pair ofa separate file was created (e.g. the file
params_MG_ga05.inicorresponds to gα=0.5 and n=2). -
Concerning the MGCOSMOMC package the priors of gα and n can be found in
batch3/params_CMB_MG.inifile, while the priors for the rest of the parameters can be found inbatch3/params_CMB_defaults.inifile.
If you use any of the above codes or the figures in a published work please cite the following paper:
Is Gravity Getting Weaker at Low z? Observational Evidence and Theoretical Implications.
Lavrentios Kazantzidis, Leandros Perivolaropoulos, arxiv:1907.03176
as well as the appropriate papers described in the offficial MGCAMB and MGCOSMOMC repositories.
Any further questions/comments are welcome
Lavrentios Kazantzidis - l.kazantzidis@uoi.gr
Leandros Perivolaropoulos - leandros@uoi.gr