The Elevated Complex Zero-Gap Core (ECZC) Model: Resolving Gravitational Singularities via Phase Transition Boundaries, Superfluid Dynamos, and Holographic Membranes

This paper presents the Elevated Complex Zero-Gap Core (ECZC) model, a non-singular alternative to classical black hole interiors. Rather than collapsing into an infinitely dense mathematical point, we theorize that infalling mass undergoes a profound spatial phase reduction at the Planck scale (∼ 1.6 × 10−35 m), resulting in a macro-atomic, impenetrable liquid planet state maintained at absolute zero. This hyper-dense superfluid core generates a frictionless, zero-resistance superconductor dynamo, giving rise to an intense, hyper balanced magnetic polarity. Surrounding this core is an elevated, frictionless quantum levitation buffer (the Maglev Zone) bounded by a two-dimensional holographic membrane defined by the maximum permissible spatial gap threshold between constituent particles.Inflowing matter is dynamically flattened across this 2D membrane like a geometric wrap, releasing its original harmonic signature via gravitational wave ringdowns before ultimate core attachment. Finally, we propose that the absolute exclusion of spatial voids within the core drives a macroscopic displacement mechanism, offering a mechanical explanation for the expansion and geometry of large-scale cosmic voids in a non-central, expanding universe. ---SYSTEMIC RESOLUTION OF OPEN WORKS:This paper serves as the core macro-physical resolver for the underlying structural frameworks proposed across the author's previous publications. Specifically, it unifies:1. The Layered Yang–Mills Substrate Model (DOI: 10.5281/ZENODO.19712941) via the formalization of the 2D Pre-Temporal Manifold as the maximum spatial gap threshold membrane.2. Brown’s First Law of Stacked Horizons (DOI: 10.5281/ZENODO.19393163) via the radial stratification of the quantum Maglev levitation zone.3. The Projective Relationism & Deformation Stabiliser Programme (DOI: 10.5281/ZENODO.20285152) by establishing the membrane tension boundary condition.4. The Theory of Data Gravity (DOI: 10.5281/ZENODO.20489882) by scaling relational attraction to macroscopic space-exclusion phenomena. This paper serves as the central macro-physical resolver for the author's broader physics portfolio. It is formally extended by three specialized operational addenda: 1. Addendum A: Quantized Bubble-Layer Accretion — Defines a discrete, surface-energy-minimizing membrane growth mechanism modeled on soap film coalescence and Type II superconductor flux quantization.2. Addendum B: The Axisless Core — Establishes full SO(3) spherical symmetry and omnidirectional magnetic field expulsion, structurally suppressing polar relativistic jets.3. Addendum C: Photonic Exclusion — Proves the ontological impossibility of the photon state within a zero-gap volume, resolving the black hole information paradox via boundary-enforced information expulsion