We present a complete theoretical and engineering account of superluminal metric engineering within the synthesis of Geometric Unity (GU) and Refractive Vacuum Gravity (RVG). In the GURVG framework the observable four-dimensional spacetime X⁴ is a holographic boundary screen for the 14-dimensional Observerse Obs—projected through the chimeric bundle C (Y) =V⊕H*—whose ten extra dimensions act as a thermodynamic heat sink absorbing the entropy of macroscopic metric deformation. The physical vacuum is modeled as an active refractive fluid modulated by the 95. 4 GeV dilaton, empirically identified with the persistent LHC diphoton resonance, which couples to the electromagnetic sector through the trace anomaly T^μ_μ= (β (g) /2g) F_μνF^μν + mf ψ̄ψ. We derive the Scalar-Hydraulic Drive (SHD) from disformal quantum electrodynamics and the Gordon optical metric, obtain a Master Equation of Levitation in which propulsive force scales with the gradient of the magnetic energy density ∇ (B²), moderated by a self-regulating refractive factor K^-2 that bounds the response in the supra-saturation regime, and show that a topologically induced phase transition driven by MADA-generated magnetic helicity circumvents the Schwinger-scale energy barrier. Acceleration of the metric envelope is bounded not by special relativity but solely by the yield strength of the Ti–6Al–4V/Inconel 718 exoskeleton (∼880–1030 MPa) and the thermal coercivity limit of Nd₂Fe₁₄B (∼230 °C), permitting passage of c₀ in hours (for the maximum-stress 1000g₀ profile) while passengers experience zero proper acceleration. Finally, we prove that continuous superluminal propagation of the metric envelope preserves causality: the dilaton wave equation is strictly hyperbolic, the disformal factor satisfies the invertibility condition C (C−2XD) >0, Spontaneous Lorentz Symmetry Breaking eliminates tachyonic paradoxes, and finite acceleration enforces a strictly positive coordinate-time cost, forbidding closed timelike curves. The same disformal coupling lies dormant on cosmological scales, consistent with the GW170817 multimessenger bound on the speed of gravity to one part in 10¹⁵.
Hofseth et al. (Thu,) studied this question.