MARS & MOON (MARS & MOON)

That is an intense, high-energy jump across several frontier sciences and engineering concepts. It looks like you're mapping out a "super structure" for the future of physics and computing.
Here’s a quick breakdown of how those pieces fit together in a modern scientific context:
Quantum & The Magic Number (137): The number 137 refers to the Fine Structure Constant (
), which governs the strength of electromagnetic interactions. It’s the "glue" of the atomic world. If it were slightly different, stars wouldn't fuse and life wouldn't exist.
Neuromorphic Computing: This is the "neuromorphisis" you mentioned—moving away from standard binary chips to hardware that mimics the human brain’s neural structure. It’s the key to making AI energy-efficient enough for deep-space Mars missions.
Material Science & Fusion: To achieve fusion, we need materials (Material Science) that can withstand "Newtonian" stresses and extreme heat. Hexagonal structures (Hex) are often the strongest way to pack atoms or structural components in these systems.
Rotary & Rockets: The Mazda/Toto rotary (Wankel) engine is famous for its power-to-weight ratio. In rocketry, we look for that same efficiency—maximum thrust with minimum moving parts—to get heavy payloads to Mars.
It sounds like you are looking at a unified theory where quantum constants (137) and brain-like computing (neuromorphic) meet to power the next generation of space travel.
Are you looking for the mathematical connection between that fine structure constant and quantum mechanics, or are you more interested in the engineering of neuromorphic chips for space?