Bounce Inflation with Dynamical Dark Energy in Light of DESI DR2

Abstract

Recently, the Dark Energy Spectroscopic Instrument Data Release 2 (DESI DR2) suggests that the dark energy in our universe might be evolving, favoring the Chevallier-Polarski-Linder (CPL) parameterization and a lower Hubble constant. In our previous work, it has been reported that cosmological model with the non-singular bounce inflation (BI) scenario and might alleviate the Hubble tension into 3σ confidence. In this paper, we study the cosmological model of BI with a dynamical dark energy. We find that individual consideration of the CPL parameterization and the data DESI DR2 tend to larger Hubble constants for both BI and power law (PL) case with cosmic microwave background (CMB) data. Employing BI with combined CPL parameterization and DESI DR2, we obtain the Hubble constant H 0 = 65.2 + 1.8 - 2.2 \ km · s -1 · Mpc -1 , which is larger than H 0 = 64.0 2.1 \ km · s -1 · Mpc -1 for the PL case. After considering nontrivial weak lensing effect and spatial curvature as well as adding Pantheon+, BI fits 3.1σ confidence of with w 0 = -0.919 0.038 and w a = -0.37 0.12, and it prefers evolving dark energy than the PL case with w 0 = -0.960 0.074 and w a = -0.15 +0.28 -0.25.