Anubal Fusion is building India’s first proton-boron (p-¹¹B) fusion infrastructure to unlock a clean, sustainable energy future. By combining ultra-intense lasers with advanced particle physics, we’re pioneering a next-generation fusion approach that produces no radioactive waste. Through simulation-driven development and strategic partnerships, we’re accelerating the path to safe, scalable power.
Anubal Fusion is redefining the future of sustainable energy through proton-boron (p-¹¹B) fusion, a next-generation approach that converts fusion reactions directly into usable power. By leveraging Laser-Driven Particle Acceleration and ultra-high-intensity petawatt lasers, we’re unlocking the potential of fusion energy.
Our focus on p-¹¹B fusion ensures a clean, safe, and efficient pathway to energy independence. This method avoids radioactive waste while also relying on abundant fuel sources, making it a practical and scalable solution for the global energy crisis.
One of the most critical factors in achieving commercial fusion energy is ensuring a net energy gain. Anubal Fusion aims to achieve highly efficient power generation, making p-¹¹B fusion a viable alternative to conventional energy sources.
To achieve this, we’re enhancing laser energy absorption to maximize proton acceleration, optimizing reaction conditions to improve fusion yield, and developing advanced energy conversion techniques to harness fusion-generated alpha particles efficiently.
With our experimental phase set to begin in 2026, Anubal Fusion plans to utilize a high-performance computational facility to simulate and refine fusion reactions before real-world implementation.
These virtual experiments allow us to optimize reaction conditions with high precision, minimize financial and resource expenditure, and accelerate development timelines with predictive modeling. Running simulations allows us to identify the most effective experimental parameters, thereby reducing costly trial and error and accelerating the path toward commercialization.
We’re looking to revolutionise the global energy landscape with a truly sustainable alternative. Traditional energy sources like fossil fuels remain the primary driver of carbon emissions and climate change, while nuclear fission generates hazardous radioactive waste that requires long-term management. Even DT fusion, though comparatively cleaner, still produces neutron-induced radioactivity which demands heavy shielding.
p-¹¹B fusion is the most viable approach, producing zero greenhouse gas emissions and minimal radioactive by-products. Moreover, boron is a resource found abundantly in minerals and seawater, allowing p-¹¹B fusion to emerge as a sustainable and scalable energy solution.
Powering the future with aneutronic fusion – clean, safe, and limitless.
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Powering the future with aneutronic fusion – clean, safe, and limitless.
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