On the energy flow of λ in Horava-Lifshitz cosmology

Abstract

Horava-Lifshitz gravity has been proposed as a ghost-free quantum gravity model candidate with an anisotropic UV-scaling between space and time. We present here a cosmological background analysis of two different formulations of the theory, with particular focus on the running of the parameter λ. Using a large dataset consisting of Cosmic Microwave Background data from Planck, Pantheon+ supernovae catalogue, SH0ES Cepheid variable stars, Baryon acoustic oscillations (BAO), Cosmic Chronometers, and gamma-ray bursts (GRB), we arrive at new bounds on the cosmological parameters, in particular λ, which describes deviation from classical general relativity. For the detailed balance scenario we arrive at the bound λ=1.027260.00012, and for beyond detailed balance the limit reads λ=0.9949+0.0045-0.0046. We also study the influence of different data sets and priors, and we find that removing low-redshift data generally moves λ closer towards UV values, whilst simultaneously widening the error bars. In the detailed balance scenario, this effect is more noticeable, and λ takes on values that are significantly below unity, which corresponds to the infrared limit of the theory.