CPL-parametrized cosmic expansion in Galileon gravity: Constraints from recent data

Abstract

We explore the cosmic expansion history within the framework of Galileon gravity by employing a redshift-based expression for the Hubble rate, H(z), derived from the CPL parametrization ωDE(z)=ω0+ωaz1+z. This parametrization allows for a time-dependent expansion history consistent with the non-linear Galileon field equations. To constrain the model parameters, we perform a MCMC analysis using 46 Hubble parameter measurements, DESI DR2 BAO data and 1701 Pantheon+ datasets. The best fit values obtained are H0 = 67.7043+1.4354-1.4102 km/s/Mpc, m0 = 0.2668+0.0212-0.0217, ω0 = -0.8827+0.1076-0.0967 and ωa = 0.0011+0.0660-0.0622. Model comparison using information criteria yields AIC=1.46 and BIC = 11.5 indicating that the Galileon model is a strong contender to the model. The deceleration parameter shows a transition at ztr = 0.7873, with q0 = -0.598. Energy density and pressure remain physically viable with de(z)>0 and pde(z)<0 with the present day equation of state ω(z) value of -0.2915, which suggests mild dynamical dark energy. NEC and DECare satisfied, while SEC is violated. The model yields r0=0.657, s0=0.1173 and Om diagnostic shows a peak value of -0.45 at z = 0.377, converging to -1 at late times.These results demonstrate that Galileon gravity remains a viable and flexible alternative to in describing late-time cosmic acceleration.