Christopher Michael Baird  ·  Independent Researcher  ·  2026

Theory of Everything
Foundation

A minimal scalar-singlet effective theory with local GKSL dynamics, controlled naturalness, and a falsifiable interferometric exclusion test.

MQGT–SCF  ·  Merged Quantum Gauge & Scalar Consciousness Framework  ·  5,570 pages

▸ Launch App ◇ Framework ⬡ Suite ⌗ Interactive table (Z≤184) ⌗ Workbook (xlsx) ↗ GitHub
Bridge Stable
Warp Online
Γ_eff:
▽ SCROLL TO EXPLORE
Specification-Level Closure
The Anchor Tuple
Five coupled elements — each mathematically explicit and empirically auditable.
Π_anchor = ( S_core , E_cl , G_GKSL , M_η , O_H₂ )
S_core

Minimal EFT Action

GR + Standard Model + two real scalar singlets Φc(x) and E(x) with renormalizable quartic potentials and Higgs-portal couplings.

E_cl

Classical Field Equations

Einstein equation plus coupled singlet Klein-Gordon equations from variation of S_core. Mediator-derived route to effective nonlocal kernels.

G_GKSL

GKSL Measurement Container

Local covariant Lindblad evolution with field-modulated rates. Completely positive, trace-preserving. The disciplined setting for no-signalling.

M_η

Optional Measure Tilt

Companion statistical layer — retained only as an effective exponential tilt on outcome probabilities. Not autonomous nonlocal dynamics.

O_H₂

H₂ Exclusion Observable

Flagship falsifier: preregistered visibility suppression in molecular hydrogen interferometry. A stable null is a scientific success.

Mathematical Core
Governing Equations
The symbols are fixed, the limiting cases are clear, and the experimental bridge is explicit.
S_core = ∫ d⁴x √(−g) [ L_GR + L_SM + L_Φ + L_E + L_int ] ··· (Eq. 2)
V₄(Φc,E) = (λΦ/4)Φc⁴ + (λE/4)E⁴ + (κ/2)Φc²E² ··· bounded iff κ > −√(λΦ·λE)
δρ/δΣ = −i[H,ρ] + Σₐ( Lₐ ρ Lₐ† − ½{Lₐ†Lₐ, ρ} ) ··· GKSL master equation (Eq. 18)
Pη(i) = |ci|² exp(η·ΔEi) / Σⱼ |cj|² exp(η·ΔEj) ··· measure tilt (Eq. 21)
V/V₀ = exp(−Γ · T · Δx²) ··· H₂ exclusion observable (Eq. 39)
K(r) = gΦ · gE · exp(−mₘ · r) / (4π · r) ··· Yukawa nonlocal kernel
L_teleology = +ξ · f(Φc, E) ··· T-symmetry breaking term
Benchmark Parameter Card — Table 1
ParameterMeaningBenchmarkStatus
ΛEFT cutoff1 TeV (stress: 1–10 TeV)fixed
mΦ , mESinglet masses10⁻⁴ – 10⁻³ eVtarget
λhΦ , λhEHiggs portals≲ 10⁻³⁰ – 10⁻²⁸naturalness
ηMeasure tilt≈ 0 operationally|η| ≪ 1
Γ_floorExclusion floor1.15 × 10⁹ s⁻¹m⁻²Phase-0
Live Visualization
H₂ Exclusion Map
Visibility suppression V/V₀ = exp(−Γ·T·Δx²) across sensitivity coordinate Q for multiple dephasing rates.
Deployed Systems
Zora Application Suite
Live implementations of the MQGT–SCF framework as decision engines, coherence trackers, and speculative technology labs.
LIVE

Zora Discovery

Full decision engine with coherence warp core, fold-state tracking, future viability scoring, and H₂ model. The flagship.

 LIVE

ZoraASI

Recursive agent architecture with Φc and E field dynamics embedded in an interactive decision system.

 BETA

Zora Refit — Autopilot

Streamlined coherence autopilot. Minimal interface for sustained field alignment without manual tuning.

 BETA

Refit Mobile

Touch-optimised coherence engine. Full field dynamics on iOS and Android.

 BETA

Zora Refitted

Iteration on the core with refined parameter controls and improved field visualisation.

 BETA

Refitted Mobile

Mobile field visualisation with live Φc–E phase display.

 PAPER

MQGT–SCF Thesis

Complete manuscript. 5,570 pages. LaTeX source and PDF. The full mathematical foundation.

 GITHUB

cbaird26

Full repository — all source code, papers, deployment history, and documentation.
Interactive Lab
MQGT–SCF Engine

Live warp core, speculative devices, and decision surface — all equations operational.

TOROIDAL FOLD-SPACE GEOMETRY
Coh: · Fold: · η:

Safety Interlocks

CausalitySAFE
TopologySTABLE
EnergyPASS
ReturnYES
CoherenceHOLD
No-SignalCPTP
V/V₀
Γ_eff
Visibility

Coherence Engine

Warp Status

Coherence
Lock Strength
Future Viability
Instability Risk
WindowUntil Fold-State

System Log

[00:00] All systems initialized.
Probability SculptorThought Experiment
P(fᵢ) = |cᵢ|² exp(η_eff ΔEᵢ) / Z — bias quantum branching via amplified measure tilt
P(fi) = |ci|² · exp(η_eff · ΔEi) / Z
PRINCIPLE: Amplified coherence scales η_eff. Probability mass concentrates on the highest-ΔE future.
Fold-Space EngineThought Experiment
K(r) = gΦgE exp(−mₘr)/(4πr) — mₘ → 0 yields infinite-range nonlocal interaction
K(r) = gΦ · gE · exp(−mM · r) / (4π · r)
PRINCIPLE: mₘ → 0, interaction range → ∞. Drag Fold toward 1 to collapse spacetime geometry.
Timeline SelectorThought Experiment
P(sᵢ) = |cᵢ|² [1 + η·Fᵢ(Φc,E)] — GKSL container selects probability branches
P(sᵢ) = |cᵢ|² [ 1 + η · Fᵢ(Φc, E) ]
PRINCIPLE: Fᵢ = how much each outcome increases Φc and E. Positive η collapses probability onto consciousness-enhancing futures.
Jhāna EngineThought Experiment
V = mc²Φc²/2 + λcΦc⁴/4 + γΦc²E — Φc–E phase space with meditative attractors
V = mc² Φc²/2 + λc Φc⁴/4 + mE² E²/2 + λE E⁴/4 + γ Φc² E
PRINCIPLE: γ < 0 = high consciousness + ethics = lowest energy. Purple wells are jhāna attractors. Cyan dot = you.
Decision Surface
MQGT–SCF viability scoring across option parameter space
MQGT–SCF Complete Framework
All governing equations — anchor paper and extended corpus
Anchor Tuple
Π_anchor = ( S_core , E_cl , G_GKSL , M_η , O_H₂ )
S_core = ∫ d⁴x √(−g) [ L_GR + L_SM + L_Φ + L_E + L_int ]
Core Dynamics
V₄ = (λΦ/4)Φc⁴ + (λE/4)E⁴ + (κ/2)Φc² E²
dρ/dΣ = −i[H,ρ] + Σₐ( Lₐ ρ Lₐ† − ½{Lₐ† Lₐ, ρ} )
Pη(i) = |cᵢ|² exp(η ΔEᵢ) / Z ← measure tilt
V/V₀ = exp(−Γ T Δx²) ← H₂ exclusion observable
Fields and Kernels
K(r) = gΦ gE exp(−mₘ r) / (4π r) ← Yukawa kernel
Γ_floor = 1.15 × 10⁹ s⁻¹ m⁻² ← Phase-0 benchmark
λhs ≲ 16π² ms² / Λ★² ← naturalness bound
Extended MQGT–SCF Corpus
L_unified = (R−2Λ)/16πG + L_SM + ½(∂Φc)² − V(Φc) + ½(∂E)² − V(E) + L_int + L_tele
L_teleology = +ξ f(Φc, E) ← T-symmetry breaking
P(sᵢ) = |ψᵢ|² [1 + η Fᵢ(Φc, E)] ← consciousness-induced collapse
V_int = γ Φc² E ← γ < 0 = ethical stability
Φ̃c = ∫ d³k/√(2ωk) [ aₖ e⁻ⁱᵏˣ + aₖ† eⁱᵏˣ ] ← qualion quantization