Tidal acceleration of autoparallels in metric-affine gravity separates into Newtonian gravity plus linear post-Riemannian corrections from torsion and nonmetricity that can be decomposed into irreducible Lorentz components.
Agashe, Phys
3 Pith papers cite this work. Polarity classification is still indexing.
fields
gr-qc 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
Derives modified Raychaudhuri equation in f(Q) gravity incorporating matter terms via effective T_eff for focusing condition T ≤ T_eff, applied to FLRW with three connection branches.
Metric-affine gravity formulates equivalence principle violations via non-metricity that parallel finite-temperature mass-ratio shifts, and a generalized Fermi-Walker derivative shows no orthonormal tetrad propagates along observer worldlines.
citing papers explorer
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Tidal Forces in the Presence of Torsion and Nonmetricity
Tidal acceleration of autoparallels in metric-affine gravity separates into Newtonian gravity plus linear post-Riemannian corrections from torsion and nonmetricity that can be decomposed into irreducible Lorentz components.
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Geodesic Focusing Conditions in $f(Q)$ Gravity
Derives modified Raychaudhuri equation in f(Q) gravity incorporating matter terms via effective T_eff for focusing condition T ≤ T_eff, applied to FLRW with three connection branches.
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Equivalence Principle violation in metric-affine gravity and finite-temperature effects
Metric-affine gravity formulates equivalence principle violations via non-metricity that parallel finite-temperature mass-ratio shifts, and a generalized Fermi-Walker derivative shows no orthonormal tetrad propagates along observer worldlines.