Potential barriers are nearly-ideal quantum thermoelectrics at finite power output

This project is a classic academic reference implementation accompanying a physics paper. With 0 stars and 3 forks (likely the authors or their immediate research group), it lacks any commercial or open-source momentum. The defensibility is low (2) because the code is a direct implementation of well-known physical equations (Landauer scattering) applied to specific boundary conditions (potential barriers and quantum dots); it is a tool for scientific validation rather than a software product with a moat. Frontier labs (OpenAI, Google) have zero interest in this specific niche of condensed matter physics unless they were building specialized cryogenic cooling hardware for quantum computers, and even then, they would likely derive their own models. The 'market' for this code is limited to a few dozen research groups worldwide studying quantum thermodynamics. While the theoretical insights regarding 'nearly-ideal' performance at finite power are valuable for the scientific community, the project does not represent a defensible software asset or a platform. It is highly unlikely to be displaced by a platform, but it is also unlikely to gain adoption beyond its narrow academic context.