QST Theory - Quantum Spacetime Physics Simulators

📚 QST Physics Learning Path

1

Fundamental Layer: Quark & Lepton Mass Laws

Understand how QST explains quark and lepton mass hierarchies using geometric constant ε = φ⁻³.

Fermions Mass Law Geometric Cascade

2

Interaction Layer: Boson Projections

Explore E₈ gauge field strength projections in low-energy regimes, understanding massless vs massive bosons.

Bosons E8 Projection Spacetime Folds

3

Composite Layer: Nucleon Locking States

Understand how Fractal Vacuum Freezing (FVF) locks three quarks to form protons and neutrons.

Hadrons Confinement FVF

4

Cosmology Layer: Expansion & Dark Energy

Explore how QST explains cosmic expansion and dark energy origin without Λ constant.

Cosmology Dark Energy SE Refraction

🔢 QST Core Constants

φ = 1.6180339887...

Golden Ratio - QST Geometric Constant

ε = φ⁻³ ≈ 0.236068

Geometric Decay Constant - Mass Hierarchy Determinant

Golden Ratio φ

Foundation of QST theory, derived from E8 symmetry breaking. All mass hierarchies relate to powers of φ.

Decay Constant ε

ε = φ⁻³ is core of QST mass law: quark and lepton mass hierarchies follow ε power patterns.

Fractal Dimension D(x)

Spacetime's fractal dimension field determines geometric size and mass origin. QST predicts D ≈ φ² ≈ 2.618 (FVF freeze).

Spinor Ether ΨSE

Quantum field pervading spacetime, all particles are topological soliton standing waves upon it. Derives E=mc².

🎮 QST Physics Simulator Suite

Explore the geometric essence of QST physics through interactive 3D simulators. Each demonstrates how QST explains Standard Model properties from first principles.

🔴

QST Quark Simulator

Demonstrates geometric vortex model of quark mass law, understanding up/down-type quark mass hierarchies.

Fermions Vortex ε Cascade

t:c:u = 1:ε⁴:ε⁸

b:s:d = 1:ε²:ε⁴

🟣

QST Lepton Simulator

Explore leptons as geometric standing waves on spinor ether, understanding τ → μ → e mass decay.

Fermions Standing Wave Harmonic Notes

τ:μ:e = 1:ε²:ε⁴

🟡

QST Boson Simulator

Visualize boson projections on spacetime grid, understanding geometric difference between massless and massive bosons.

Bosons Spacetime Grid E8 Projection

m_γ = 0 (smooth wave)

m_W² = κσ²φ^(2n)

🔶

QST Hadron Simulator

Observe proton and neutron confinement states, understanding quark locking mechanism under FVF.

Hadrons Confinement FVF

D(x) → φ² ≈ 3.618

V(r) ~ αr (linear potential)

🏛️ QST Theory Foundation

🌟 Core Concepts

E8 Principal Bundle - Standard Model particles emerge from E8 principal bundle + Φ field symmetry breaking
Spinor Ether ΨSE - Quantum field pervading spacetime, all particles are topological solitons upon it
Fractal Dimension D(x) - Spacetime's fractal dimension field determines geometric size and mass origin
FVF Mechanism - Fractal Vacuum Freezing, forming stable geometric structures and confinement

📐 Key Advantages

First Principles Derivation - No free parameters, all physical quantities derived from ℒ_D and Φ field
Geometric Intuition - Mass and interactions understood through geometric deformation and dimension gradients
Unified Framework - Particle physics, cosmology, and quantum field theory unified on same geometric foundation
Verifiable Predictions - Provides multiple experimentally testable predictions (e.g., dark matter alternatives)

🚀 Quick Start

Choose your entry point to begin exploring the geometric world of QST physics.

🔴 Quark Mass Law 🟣 Lepton Standing Waves 🟡 Boson Projections 🔶 Nucleon Confinement

🧠 Soul Memory System