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  • Products
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    • ΔE Resonance Model™
    • What Wavecode Solves
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  • JWST and Cosmology
    • Hubble Tension Explained
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  • More
    • Home
    • Simulations
      • Wavecode 3 Body
      • Wavecode SpinLock Reactor
      • Wavecode Galaxy
      • Wavecode Nucleon Dynamic
      • Wavecode Chemistry
      • Wavecode Protein Fold
      • Wavecode PHOLDS Validate
      • Quantum Particle Grid
      • Semi-Dirac Anisotropy
      • Wavecode Atomic Shell
      • Wavecode Galaxy Cluster
      • Photons as Shell Slippage
      • Wavecode CMB/Expanse
    • Products
      • Quantum Pulse™
      • Quantum Surfer™
      • Quantum Thunder™
      • Quantum Glow™
      • Quantum Lightning™
      • Quantum Drive™
      • QuantumComm
    • Energy Lost and Found™
      • ΔE Resonance Model™
      • What Wavecode Solves
      • Missing Energy by Domain
      • Why Everything Fits
    • JWST and Cosmology
      • Hubble Tension Explained
      • Why JWST Confirms PLH
      • Tension? No, Shell Drift
      • Full White Paper
    • The 51 Orders
      • Interactive Magnitude Map
      • Orders Entities and Sims
      • Coverage Progress Tracker
      • Submit New Entity or Sim
  • Home
  • Simulations
    • Wavecode 3 Body
    • Wavecode SpinLock Reactor
    • Wavecode Galaxy
    • Wavecode Nucleon Dynamic
    • Wavecode Chemistry
    • Wavecode Protein Fold
    • Wavecode PHOLDS Validate
    • Quantum Particle Grid
    • Semi-Dirac Anisotropy
    • Wavecode Atomic Shell
    • Wavecode Galaxy Cluster
    • Photons as Shell Slippage
    • Wavecode CMB/Expanse
  • Products
    • Quantum Pulse™
    • Quantum Surfer™
    • Quantum Thunder™
    • Quantum Glow™
    • Quantum Lightning™
    • Quantum Drive™
    • QuantumComm
  • Energy Lost and Found™
    • ΔE Resonance Model™
    • What Wavecode Solves
    • Missing Energy by Domain
    • Why Everything Fits
  • JWST and Cosmology
    • Hubble Tension Explained
    • Why JWST Confirms PLH
    • Tension? No, Shell Drift
    • Full White Paper
  • The 51 Orders
    • Interactive Magnitude Map
    • Orders Entities and Sims
    • Coverage Progress Tracker
    • Submit New Entity or Sim

Semi-Dirac Anisotropy Simulation

We’re currently building the next high-impact simulation in the Wavecode suite — one that reveals how PLH directional phase-locking and asymmetry in shells predicts semi-Dirac anisotropy.


Semi-Dirac Anisotropy behavior occurs between 1E-9 and 1E-8 meters.


Strategic Impact:  very high

Fields: quantum materials, electronics, spintronics, valleytronics, semiconductors, meta-materials, quantum simulation, qml platforms, advanced optics, polaritonics

TAM: $35B+


 Strategic Highlights

  • DARPA, Intel, TSMC, and quantum material research labs are actively investing in anisotropic 2D materials.
     
  • Semi-Dirac behavior is rarely simulated accurately — and never through a PLH shell-asymmetry lens.
     
  • Graphene, borophene, phosphorene, and oxide heterostructures could all benefit from predictive anisotropy modeling.


Stay tuned. This isn’t just a sim. It’s the map to the next quantum insight.

Copyright © 2025 The Wavecode Project - All Rights Reserved.
Patent Pending

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