This work presents a deterministic framework for controlling anomalous transport in magnetically confined plasmas by leveraging higher-order non-canonical corrections in gyrokinetic Hamiltonian dynamics. The **Fusion V2. 1** edition introduces: Third-order phase-space torsion corrections and their effect on plasma stability. Projection of the full 5D phase space onto a **1D complex manifold**, enabling 10⁹ computational efficiency in real-time stability auditing. The **Meigooni Binary Trigger (MBT) **, a geometric governance mechanism based on the **/8 phase constraint**, which suppresses shear-driven instability growth. The **Viana Constant (V) **, a structural equilibrium anchor that ensures deterministic reappearance of coherent phase-space geometry after dimensional collapse. Hierarchical geometric control, combining macro-triangular shaping and local precision rings, supported by vortex-modulated currents. This framework represents the **Meigooni Doctrine**, a cross-domain philosophy unifying chaotic-system reduction across micro, meso, and macro scales, and emphasizes deterministic governance over stochastic approximation in plasma confinement. The methodology is designed to bridge atomic orbital stability principles to macroscopic plasma confinement and ignition optimization.
Amin Tayebi-Meigooni (Sun,) studied this question.