Scalar–tensor–vector gravity theory , volume=

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Showing 5 of 5 citing papers.

• Accretion Disks in Schwarzschild-MOG and Kerr-MOG Backgrounds: MOG Parameter in terms of Observational Quantities gr-qc · 2026-04-08 · unverdicted · none · ref 13

  Exact analytic relations express M, α, D (and a) of Schwarzschild-MOG and Kerr-MOG black holes directly in terms of accretion-disk frequency shift, aperture angle, and redshift rapidity (plus acceleration in the rotating case).

• A correlation predicting galaxies without dark matter astro-ph.GA · 2026-05-11 · unverdicted · none · ref 70

  Baryonic fraction in certain galaxies correlates with baryonic acceleration as approximately a_bar inverse, placing known dark-matter-deficient galaxies at the high-acceleration extreme and predicting low dark matter content for ultra-diffuse galaxies brighter than 25 mag arcsec^{-2}.

• Emergent time and more from wavefunction collapse in general relativity gr-qc · 2025-10-23 · unverdicted · none · ref 48

  A theory of time from wavefunction collapse in GR predicts emergent unitary tensor graviton dynamics and identifies long-wavelength scalar modes as a viable dark matter candidate in a cosmological constant-dominated universe.

• Post-Newtonian orbital mechanics around a black hole in modified gravity gr-qc · 2026-05-20 · unverdicted · none · ref 29

  MOG produces distinct orbital precession and sky-projected deviations for S-stars that grow with the parameter α and can resemble dark matter effects while remaining testable against GR.

• Gravitational Lensing as an Optical Framework for Modified Gravity Theories gr-qc · 2026-04-08 · unverdicted · none · ref 32

  Gravitational lensing is recast as an optical phenomenon governed by effective refractive index, yielding closed-form deflection angles and Einstein radii for modified gravity models including deep-MOND, Yukawa, and power-law f(R).