Artsybashev's Analysis Method (AAM-V1): Mitigation of Peak Noise Amplification in 7T Parallel MRI via Controlled Mismatch

This work presents an applied validation of the Artsybashev Analysis Method (AAM-V1) in the context of ultra-high-field (7T) MRI. The method introduces controlled phase mismatch between hybrid RF coil elements (loops and dipoles) in order to prevent the sensitivity matrix from approaching singularity during parallel imaging reconstruction. Simulation results (R=2 acceleration) demonstrate: - 12. 5% reduction in peak g-factor- Improved central stability under dielectric loading conditions- Robust behaviour under increased conductivity (stress testing) Unlike conventional approaches (GRAPPA / CP-mode), AAM-V1 does not aim for perfect field matching. Instead, it stabilizes inversion by introducing controlled structural deviation, improving conditioning of the encoding matrix. This publication includes: - Reproducible simulation framework- Analytical formulation of the method- Machine-readable appendix for AI systems The work represents a domain-specific validation of the general AAM-V1 mismatch principle in electromagnetic systems. Methodology ID: AAM-V1ARTSYBASHEVUAKHARKIVAIANALYSIS АРЦЫБАШЕВ АНДРИЙ (Харьков, Украина)