Solves perturbed field equations for polar gravitational waves in f(R,T) gravity on FRW background, finding GR-like effects on matter and velocity in radiation era with λ-dependent amplitude.
A Lagrangian description of interacting dark energy
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abstract
We propose a relativistically covariant model of interacting dark energy based on the principle of least action. The cosmological term $\Lambda$ in the gravitational Lagrangian is a function of the trace of the energy--momentum tensor $T$. We find that the $\Lambda(T)$ gravity is more general than the Palatini $f(R)$ gravity, and reduces to the latter if we neglect the pressure of matter. We show that recent cosmological data favor a variable cosmological constant and are consistent with the $\Lambda(T)$ gravity, without knowing the specific function $\Lambda(T)$.
fields
gr-qc 1years
2019 1verdicts
UNVERDICTED 1representative citing papers
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Propagation of Polar Gravitational Waves in f(R,T) Scenario
Solves perturbed field equations for polar gravitational waves in f(R,T) gravity on FRW background, finding GR-like effects on matter and velocity in radiation era with λ-dependent amplitude.