This paper introduces reaction corridor logic within the MID/QC framework, showing how coherence routing and gating interference enable substrate-based computation. Reaction corridors behave as logic channels, and interference zones act as NOT gates. The manuscript explains logic propagation, feasibility suppression, and substrate-native logic primitives. It reframes computation as a geometric phenomenon, enabling engineered substrates to perform logic operations through coherence modulation and gating topology.
Chadwick Rasque (Fri,) studied this question.