Constraining f(Q, Lm) gravity with bulk viscosity
Abstract
We investigate the influence of bulk viscosity on late-time cosmic acceleration within an extended f(Q, Lm) gravity framework, where the non-metricity Q is non-minimally coupled with the matter Lagrangian Lm. Analyzing the function f(Q, Lm) = α Q + β Lm, we derive exact solutions under non-relativistic matter domination. Using observational datasets (H(z), Pantheon supernovae, and their combination), we constrain the model parameters H0, α, β, and ζ. The deceleration parameter transitions from positive to negative values around redshifts zt ≈ 0.80 to 0.99 , indicating current accelerated expansion. Moreover, the effective equation of state parameter, ωeff, resembles quintessence dark energy (-1 < ωeff < -13), with corresponding values from respective datasets. Finally, we use the Om(z) diagnostic, which confirms that our model demonstrates quintessence-like behavior. Our findings underscore the significant role of bulk viscosity in understanding accelerated expansion in the universe within alternative gravity theories.
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