Energy conditions in f(Q, Lm) gravity

Abstract

We are experiencing a golden age of experimental cosmology, with exact and accurate observations being used to constrain various gravitational theories like never before. Alongside these advancements, energy conditions play a crucial theoretical role in evaluating and refining new proposals in gravitational physics. We investigate the energy conditions (WEC, NEC, DEC, and SEC) for two f(Q, Lm) gravity models using the FLRW metric in a flat geometry. Model 1, f(Q, Lm) = -α Q + 2Lm + β, features linear parameter dependence, satisfying most energy conditions while selectively violating the SEC to explain cosmic acceleration. The EoS parameter transitions between quintessence, a cosmological constant, and phantom energy, depending on α and β. Model 2, f(Q, Lm) = -α Q + λ (2Lm)2 + β, introduces nonlinearities, ensuring stronger SEC violations and capturing complex dynamics like dark energy transitions. While Model 1 excels in simplicity, Model 2's robustness makes it ideal for accelerated expansion scenarios, highlighting the potential of f(Q, Lm) gravity in explaining cosmic phenomena.

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