FUNt / Physmatics: Hydrogen-Anchored Fractaile Dynamics Across Scales - Consolidated Thesis and Empirical Working Record (v2)

FUNt / Physmatics: Hydrogen-Anchored Fractaile Dynamics Across Scales Consolidated Thesis and Empirical Working Record (v2.0) Abstract This thesis consolidates a set of FUNt / Physmatics manuscripts and ledger inserts into a single, legible, versioned document intended for public reading and reproducible follow-on work. The unifying aim is to present a hydrogen-anchored framework for describing cross-scale behavior using a fractaile (self-similar + discretized) operator discipline and φ-indexed scaling motifs, while preserving explicit boundaries between (1) mathematical statements, (2) executable simulation tooling, and (3) real-world interpretation. The compiled sections include hydrogen-seed premises, resonance-band constructions, proton tunneling motifs, electron-lattice / angle-phase control themes, and multiple empirical inserts and clarifications. Rather than asserting that any interpretation is “proven,” this thesis is offered as a structured working record: definitions, claims, and derived forms are presented in a way that can be independently checked, compared, or rejected. This consolidated thesis is paired (as separate public artifacts), with two supporting tools created during the audit effort: HUG (Hydrogenic Universe Gate), which assists in converting naturallanguage ideas into explicit mathematical statements with declared domains, and AUDIT, a frozen notebook that executes declared mathematics and reports diagnostics. Interpretive mapping of operators to physical constructs is intentionally kept outside these tools to prevent narrative drift from contaminating the executable record. Earlier uploads and exploratory collections are preserved as historical seeds; this v2.0 thesis exists to provide a coherent read-first backbone for the broader archive and to establish a stable foundation for future, versioned refinements. Author’s Statement Humans and AI systems tend to fill gaps with assumptions. When ideas are expressed only in words, both people and machines can drift into plausible narrative that runs as code but does not correspond to the intended claim. This thesis therefore prioritizes explicit statements, declared boundaries, and reproducible structure, so that readers can verify what is written without relying on trust, authority, or interpretive persuasion. Scope and Limitations This document is a consolidation of multiple related manuscripts and inserts. It is not presented as a single narrowly scoped journal paper. Where empirical references are included, they are provided to support testability and comparison; they should not be read as final validation of the full framework. Mathematical audit tooling (HUG/AUDIT) is published separately as methods artifacts; interpretation is intentionally separated into its own papers. Historical Context Prior Zenodo uploads represent exploratory seed-stage material published before the HUG/AUDIT workflow was formalized. Those artifacts remain preserved as time-stamped context, but they are not the canonical, read-first synthesis. This consolidated thesis (v2.0) is provided to make the archive legible and version-governed. Table of Contents FUNt Hydrogen-Anchored Fractaile Dynamics Thesis Section A — Orientation, Scope, and Method Discipline (LOCKED) Section A establishes the orientation, scope, and methodological discipline of this thesis. This work introduces a hydrogen-anchored, fractaile-based framework for examining scaling behavior across physical systems. Hydrogen is treated as a universal reference anchor (H = 0 ground state), not as a reductionist explanation of all phenomena. The purpose of this section is not to persuade, but to define boundaries: what is being proposed, how it is evaluated, and—critically—what is not being claimed. This thesis prioritizes mathematical clarity, reproducibility, and separation of interpretation from execution. All mathematical operators and recurrences are evaluated through explicit audit mechanisms before any interpretive mapping is attempted. Constraints and non-claims are explicit: • This framework does not assert that all forces reduce to hydrogenic interactions. • It does not claim hydrogen determines consciousness, intent, or meaning. • It does not claim to replace established physical theories. • It does not infer physical causation solely from mathematical resemblance. Section A is locked as a structural foundation. FUNt Thesis — Section B Backup (v1.0) Section B — The Hydrogen Cosmos and Resonance Bands Bridge note: Section B extends the governance concepts of Section A into the hydrogen-centric cosmos model and resonance-band framing. FUNt Master Paper – Section B: The Hydrogen Cosmos and Resonance Bands 1. Hydrogen as the Universal Medium Hydrogen constitutes approximately 75% of all known matter and exists both as atom and field substrate. Every particle, molecule, and plasma state arises within hydrogen’s quantum lattice. The FUNt framework treats this lattice not as void but as a resonant continuum through which all coherence propagates. Key Concept: All protons are phase-locked nodes in a shared resonance web. No proton is isolated; each participates in the same standing-wave field that underlies atomic, molecular, and cosmic structures. 2. Hydrogen Resonance Bands (HRBs) HRBs are quantized intervals of stable phase—recurrence harmonics of the φ-scaled law: Eₙ = h ν₀ φⁿ Each n denotes a stable “band of coherence” where hydrogen’s field supports constructive interference. At these nodes, energy transfer, chemical bonding, and gravitational stability converge. Empirical Markers: • Atomic spectra spacing ratios (Balmer series) → φ-harmonic deviations ≈ 0.001 tolerance. • DNA helix pitch (34 Å per 10 bp) : width (21 Å) ≈ φ. • Planetary resonances (Earth–Venus 8:13, Neptune–Pluto 3:2) → φ-linked orbital ratios. 3. The Hydrogen Cosmos — Cycle Up / Cycle Down All energy and matter participate in a universal breathing rhythm: Cycle-Up: Potential condenses into order (H → structure), Δφ > 0 Cycle-Down: Order dissolves to radiant field (structure → H), Δφ 0 is a scaling constant that may be system-dependent This expression is intentionally minimal. It asserts only that increased phase disparity suppresses transport probability in an exponential manner. It does not specify why this occurs, nor does it assert that phase disparity is the sole contributing variable. The form is mathematically admissible, dimensionally consistent, and su