Energy Conditions in Higher Derivative f(R,Box R,T) Gravity
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In this paper, we examined the viability bounds of a higher derivative $f(R,\Box R, T)$ theory through analyzing energy conditions (where $R$ and $T$ are the Ricci scalar and trace of energy momentum tensor, respectively). We take flat Friedmann-Lema\^{i}tre-Robertson-Walker spacetime coupled with ideal configurations of matter content. We consider three different realistic models of this gravity, that could be utilized to understand the stability of cosmological solutions. After constructing certain bounds mediated by energy conditions, more specifically weak energy condition, we discuss viable zones of the under considered modified models in an environment of recent estimated numerical choices of the cosmic parameters.
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Traversable Wormholes with Non-Exotic Matter: The Role of Higher Curvature Corrections
Higher-derivative corrections in f(R, □R) gravity can support traversable wormholes with reduced or no exotic matter.
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