Towards a Solution to the H0 Tension: the Price to Pay
Abstract
The tension between current expansion rate H0 using Planck data and direct model-independent measurements in the local universe has reached a tension above 5σ in the context of the model. The growing tension among early time and local measurements of H0 has not ameliorated and remains a crucial and open question in cosmology. Solutions to understand this tension are possible hidden sources of systematic error in the observable measurements or modifications to the concordance model. In this work, we investigate a solution to the H0 tension by modifying and we add at early times extra relativistic energy density ex. In some context this ex corresponds to EDE or Bound Dark Energy. We implement our model in CAMB and perform a full COSMO-MC (MCMC) allowing to simultaneously fit the latest data from CMB anisotropies and the value of H0 = 74.03 1.42,km\, s-1Mpc-1 from A. Riess [R-19] Riess:2019cxk. The inclusion of ex ameliorates the tension between early and late time measurements only slightly and we obtain a value H0 = (68.70 0.45) still in conflict with local measurements [R-19]. We follow up our analysis by proposing two forecasting standard deviation σH=1 and σH=0.5 (in units of ) for local distance measurements H0 = (74.03 σH) . From MCMC we obtain a value of H0 =(72.83 0.47) \, at 68\% confidence level for σH =0.5, fully consistent with [R-19], while the price to pay is a percentage increase of 0.12\% in CMB cmb2. Finally, the extra energy density ex leaves distinctive imprints in the matter power spectrum at scales k kc with kc=acH(ac) and in the CMB power spectrum, allowing for independent verification of our analysis.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.