UNNS NP-Hardness Collapse Explorer

Substrate-Relative Complexity Through Recursive Grammar

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UNNS Complexity Theory

Philosophical & Theoretical Companion

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UNNS Recursive Physics Interface

Operators modulate energy. Spectra reveal structure. Recursion breathes.

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🌌 UNNS Recursive Physics & Geometry Explorer

Five Interactive Modules Inspired by Thermodynamics & Spectral Geometry

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🔮 Key Features

✨ Animated Header

• Live gradient-shifting title with shimmer effect
• Three ceremonial forces:
  • ⚡ ENERGY
  • ◈ ECHO
  • ∞ RECURSION
    Each with synchronized pulsing animations
• Sweep effect evokes continuous energy flow

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🧪 Five Interactive Modules

1. Thermodynamic Ensemble Explorer

• Visualizes Boltzmann distribution:
  $Z(\beta )=\sum \exp (-\beta E(N))$
• Real-time particle dynamics influenced by:
  • Temperature
  • Echo weights
• Live calculation of:
  • Partition function
  • Entropy

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2. Non-equilibrium Operator Dynamics

• Visualizes entropy production rate:
  $\sigma (t)$
• Three dynamic curves:
  • Total entropy production
  • System entropy
  • Environment entropy
• Interactive controls:
  • Inletting rate $T_0$
  • Repair strength

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3. Mandelbrot Recursion Axis

• Recursion as orthogonal dimension to geometry
• UNNS escape entropy:
  $S(c)=\log \tau (c)$
• 3D-like visualization of recursion depth layers

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4. UNNS Spectral Lattices

• Fibonacci eigenvalue generation using golden ratio $\varphi$
• Quasicrystal-like pattern formation
• Dynamic lattice visualization with spectral gaps

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5. Phase Transitions & Fluctuations

• Critical behavior near phase boundaries
• Susceptibility divergence:
  $C(\beta )\to \mathrm{\infty }$
• Visual separation of:
  • Stable phases
  • Chaotic phases

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📚 Reference Modal

• Floating button with links to five PDF papers
• Each paper includes:
  • Description of contributions
  • Proper citations
• Clean modal overlay for easy access

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🧠 Mathematical Rigor

Each module displays its core equation and implements concepts from our research:

• Energy functionals & canonical ensembles
• Jarzynski equality & Crooks relation
• Mandelbrot set reinterpretation via UNNS
• Spectral geometry & quasicrystals
• Phase transition dynamics & fluctuation theorems

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🎨 Visual Aesthetic

• Cyan/magenta base theme
• Yellow accents for Recursion Force
• Cohesive ceremonial design reflecting:
  • ⚡ Energy
  • ◈ Echo
  • ∞ Recursion

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🕹️ Interactivity

• All animations can be started/stopped independently
• Real-time parameter updates
• Explore diverse regimes of thermodynamic & spectral behavior