Microscopic origin of orbital magnetization in chiral superconductors

This project is an academic research artifact rather than a commercial software product. With 0 stars and 2 forks, it serves as a reproducibility package for a specific physics paper on arXiv. Its 'defensibility' in the software sense is non-existent as it is a niche tool for condensed matter theorists; however, the intellectual moat (the theoretical derivation) is significant within its scientific domain. Frontier labs like OpenAI or Google DeepMind are unlikely to compete in this highly specialized area of superconductivity theory, although Google's Quantum AI team does monitor such research for its implications on topological quantum computing. The displacement risk is low because this is a fundamental physics contribution; it is either validated or superseded by better theoretical models, not by 'features' or 'platform updates.' It competes with established simulation frameworks like Kwant or PythTB, but functions more as a targeted algorithmic implementation than a general-purpose library.