Negative Hybridization: a Potential Cure for Braiding with Imperfect Majorana Modes

This project represents high-level theoretical physics research in the niche of Topological Quantum Computing (TQC). While its quantitative social signals (0 stars) are low, the 3 forks indicate targeted academic interest, which is more significant in this domain than raw star counts. The defensibility (6) stems from the extreme domain expertise required to understand and implement Majorana braiding protocols; this is not a commodity software product. However, the 'platform domination risk' is high because the only entities capable of utilizing this research are massive quantum hardware players like Microsoft (Station Q), which is the primary proponent of the Majorana approach. Frontier AI labs (OpenAI, Anthropic) have zero interest here, but Google Quantum AI would be a peripheral competitor. The displacement horizon is long (3+ years) because Majorana-based qubits are still in the experimental development phase and have not yet reached commercial viability. The 'negative hybridization' concept addresses a fundamental physical bottleneck (energy splitting), making it a high-value intellectual contribution if verified by experimental data.