The MiSS project aims to revolutionize distributed quantum sensing by leveraging non-classical microwave radiation through multi-mode squeezing. Bringing together a consortium of experts in design, materials, metrology, fabrication, cryogenic characterization, and commercialization, MiSS focuses on generating non-classical microwave radiation and entanglement, pivotal for advancements in quantum sensing and metrology.
These advancements promise significant breakthroughs in quantum cryptography, enhanced imaging, and medical diagnostics. The project’s core strategy involves developing squeezers based on traveling wave parametric amplifiers, surpassing current technologies with innovative solutions in novel (meta)materials, scalable fabrication processes, and advanced metrology techniques. This will culminate in a robust, scalable prototype system demonstrating quantum-enhanced material characterization beyond the Standard Quantum Limit (SQL).