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arxiv: 2412.10518 · v1 · pith:BMJV2GHS · submitted 2024-12-13 · astro-ph.CO

Observational constraints on freezing quintessence in a non-linear f(R, L_m) gravity

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classification astro-ph.CO
keywords modelparameterfreezinggravityobservationalalphacosmicdensity
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In this paper, we investigate the freezing quintessence scenario in late-time cosmic expansion using a non-linear $f(R, L_m)$ gravity model, $f(R,L_m)=\frac{R}{2}+L_m^\alpha$, where $\alpha$ is a free parameter. We consider a solution for this model using an appropriate parametrization of the scale factor, and then the model is constrained by observational datasets, including CC, Pantheon+ (SN), and CC+SN+BAO. Our analysis yields results aligning closely with observational data. The Hubble parameter, deceleration parameter, matter-energy density, and EoS parameter of our model exhibit expected trends over cosmic time, supporting its physical validity. Furthermore, the model demonstrates consistency with the $\Lambda$CDM model in late times, displaying freezing behavior in the $\omega - \omega'$ plane and stability against density perturbations. Our findings suggest that the modified $f(R, L_m)$ gravity model is a credible approach to describing the universe's accelerating phase.

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Cited by 1 Pith paper

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Observationally Constrained Cosmological model in $f(Q,\mathcal{L}_{m})$ Gravity with $H(z)$ parameterization

    gr-qc 2026-07 conditional novelty 3.0

    An f(Q, L_m) gravity model with a parameterized H(z) fits observational data, yielding a transition redshift z_t ≈ 0.643 and cosmic age 13.724 Gyr, consistent with ΛCDM.