Finite-Time Braiding Dynamics within Topological Nanowire Qubits

This project is a specialized research implementation accompanying a scientific paper on Topological Quantum Computing (TQC). With 0 stars and 2 forks, it functions primarily as a 'code supplement' for peer review and reproducibility rather than a standalone software product. Defensibility is low (2) because the value lies in the physical insights/theorems of the paper, not the code itself, which uses standard numerical solvers (like QuTiP) to model specific Hamiltonian evolutions. Frontier labs like OpenAI or Anthropic are unlikely to compete here as this is deep-physics hardware simulation, far outside their current LLM-centric scope. However, it faces 'institutional' displacement; entities like Microsoft (via Azure Quantum and Station Q) possess vastly superior, proprietary simulation suites for Majorana nanowires. The displacement horizon is long (3+ years) only because the hardware this simulates is still in the experimental development phase, making the simulation relevant as long as the specific physics approach (Majorana fermions) remains a viable candidate for fault-tolerant quantum computing.