CPLM-PWM: Geometric Lattice Resonance for Active Nuclear Transmutation (V2. 0) From "Brute Force" to "Active Geometric Editing". A specification for the transition to a Civilization of Resonance. This paper presents the Geometric Lattice Resonance (GLR) protocol, a vacuum engineering methodology derived from the Crystal Planck Lattice Model (CPLM-PWM V2. 1). Conventional nuclear transmutation relies on high-energy collisions ("Brute Force") to shatter atomic nuclei. In contrast, GLR utilizes the geometric properties of the vacuum substrate—defined here as the Mizore Lattice (Thixotropic Supersolid) —to induce controlled phase transitions in matter using minimal energy input. By treating the atomic nucleus not as a particle but as a Geometric Stress Zone (GSZ) within the vacuum lattice, we demonstrate that tuning an external field to the Second Sound (v₂) of the lattice defect can unlock the strong nuclear force via resonance. This mechanism is governed by the Tsutsumi Identity and the Pressure Scaling Identity (10^-120), enabling the "Active Geometric Editing" of matter. Methodology: The Dual-Wave Catalyst Protocol To achieve transmutation without destructive energy, we propose a composite wave approach: Carrier Wave (f₂₀ₑₑ₈₄ₑ): Penetrates the electron cloud to couple with the core GSZ. Modulation Wave (f₌₎₃ THz / Second Sound): Tuned to the specific Phase-Undulation mode of the target nuclide. This wave acts as a "key, " rhythmically perturbing the Lattice Torsion Tensor to induce a controlled Phase Slip. Applications: Experiment A (Vacuum Freeze): Stabilizing unstable isotopes for medical transport or reactor safety (The Shield). Experiment B (Forced Relaxation): Accelerating the decay of nuclear waste (e. g. , Cs-137) within a Mizore Rectifier to recover binding energy as electricity (The Engine). The transition to CPLM-PWM implies that humanity is entering the era of Vacuum Material Science. By mastering the "Score" of the Mizore lattice, we move beyond the age of burning matter into an age where we can tune the fundamental geometry of the universe.
RYOTA TSUTSUMI (Mon,) studied this question.