Centre For Space Research 1

1. Probing Weyl-type f(Q,T) gravity: Cosmological implications and constraints
2. Double polytropic cosmic acceleration from the Murnaghan equation of state
3. Unifying the dark sector through a single matter fluid with nonzero pressure
4. Bouncing behavior in f(R, L_m) gravity: Phantom crossing and energy conditions
5. Constraining the cosmological model of modified f(Q) gravity: Phantom dark energy and observational insights
6. Modeling cosmic acceleration with a generalized varying deceleration parameter
7. Scalar field dark energy: insights into cosmological evolution and black hole accretion
8. Square-root parametrization of dark energy in f(Q) cosmology
9. Cosmological reconstructions in Einstein–Cartan–Myrzakulov gravity with torsion and non-metricity in the Weitzenböck geometrical sector
10. Dark matter constraints in Myrzakulov F(R,T) gravity: A vielbein approach in Weitzenböck spacetime with observational data
11. Einstein–Gauss–Bonnet–Myrzakulov gravity from R + F(T,G): Numerical insights and torsion–Gauss–Bonnet dynamics in Weitzenböck spacetime
12. Inflation in Myrzakulov F(R,T) gravity: A comparative study in metric, symmetric teleparallel, and Weitzenböck formalisms
13. Metric-Affine Myrzakulov Gravity Theories: Models, Applications and Theoretical Developments
14. Myrzakulov gravity in vielbein formalism: A study in Weitzenböck spacetime
15. Constrained evolution of effective equation of state parameter in non-linear f(R,Lm) dark energy model: insights from Bayesian analysis of cosmic chronometers and Pantheon samples
16. Constraining the cosmological model using recent observational data
17. Cosmological implications of the constant jerk parameter in f(Q,T) gravity theory
18. Impact of dark energy on the equation of state in light of the latest cosmological data
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