Engineering squeezed thermal reservoirs via passive linear coupling

This project is a theoretical physics contribution hosted as a reference implementation for an ArXiv paper. With 0 stars and 2 forks over nearly two years, it lacks any software-driven traction or ecosystem. Its value is purely intellectual: it proposes a method to achieve squeezed thermal states—a key resource in quantum computing and thermodynamics—without the typical requirement for active driving or non-linear interactions. From a competitive standpoint, there is no software 'moat.' The defensibility is low because the code is likely a verification script for the paper's math rather than a tool for production. Frontier labs (Google Quantum AI, IBM) are unlikely to 'compete' with this as a product, but they may integrate the underlying physics principles into their hardware control stacks if the experimental results prove robust. The displacement risk is tied to the pace of academic research in quantum optics rather than software engineering cycles.