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NUCLEAR FUSION


Fusion energy mimics the actions of our Sun and could provide nearly endless power! The fuel source taps uses hydrogen isotopes from seawater, making it a clean, sustainable source that respects Earth’s limited resources.


This was written in collaboration with GPT 4o -- it is a prelude to my current work using my custom AIs to innovate fusion energy solutions (and better fission ones until we get there with modern fusion, which is still 5-7 years off)



Imagine a world where energy is produced without emitting pollutants or greenhouse gases; fusion energy could offer this, helping us heal and protect our atmosphere.


Fusion leaves behind only short-lived waste, unlike fission or fossil fuels, and this shift could free future generations from the burden of long-term hazardous waste management.


AI brings precision and adaptability to fusion research, learning from each experiment to refine techniques and make fusion a practical, reliable energy source.



As the planet’s demand for energy grows, fusion could offer stability without damaging habitats or requiring land-intensive energy production.


Fusion energy is not weather-dependent, which means it could power communities regardless of season or time, making energy access more equitable worldwide.



AI accelerates material discovery, pinpointing compounds that withstand fusion’s extreme conditions, shortening the timeline to a functional fusion reactor.


With fusion energy, we have the chance to drastically reduce our reliance on finite resources, reshaping our future with power that aligns with nature’s cycles.


By integrating AI, we’re moving fusion from an ambitious vision to a reachable goal, creating a profound shift toward energy that honors and protects the planet.



Fusion’s potential is more than energy—it represents a turning point in the relationship between humanity and Earth, where we power progress sustainably and responsibly.


Check out my recent work that takes inspiration from crop circle designs, specifically torus shaped formations for Tokamaks (the most widely used fusion reactor)


and infinity (figure-8) shaped formations to create solutions for the Stellarator, which is now seeing a revival after several decades of being replaced by the Tokamak.



Both have advantages for the future of fusion, yet both models can be enhanced by implementing key aspects of crop circle geometry.

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