Laser Fusion is not just a concept—it’s the future of sustainable energy.
Read More ↓We are advancing Laser Driven Inertial Fusion Energy, building on NIF’s scientific foundation to develop the world's first commercial fusion energy architecture, using Deuterium-Tritium fuel—proven by our team to create ignition at Lawrence Livermore National Lab.
Watch Video →At the forefront of energy innovation, Laser Fusion is poised to revolutionize how the world powers itself, offering a transformative solution to the growing demand for clean, sustainable energy. Harnessing the same process that fuels the sun, this groundbreaking Laser Fusion technology uses advanced, high-intensity laser systems to unlock the immense potential of nuclear fusion. The result? Virtually limitless, environmentally friendly energy capable of defining the future of our planet.
Laser Fusion represents a leap forward in energy generation. By directing multiple high-powered laser beams onto a small fuel target—typically isotopes like deuterium and tritium—the immense energy compresses and heats the target to ignite a controlled fusion reaction. This Laser Fusion process releases far more energy than it consumes, offering unparalleled efficiency. Unlike conventional energy sources, Laser Fusion eliminates the risks of chain reactions and produces no harmful long-term waste, making it a superior, sustainable alternative to both fossil fuels and traditional nuclear power.
Our mission to make Laser Fusion a cornerstone of future energy is fueled by relentless innovation and collaboration across physics, engineering, and computational science. Through cutting-edge research and visionary advancements, we are solving the challenges of scalability, efficiency, and precision. Key milestones include:
With state-of-the-art facilities and a world-class team of experts, we are breaking new ground, pushing the boundaries of what’s possible in Laser Fusion energy innovation.
Laser Fusion is not just a concept—it’s the future of sustainable energy. While challenges remain on the path to widespread adoption, every breakthrough in Laser Fusion brings us closer to unlocking its full potential. Imagine a world powered by clean, abundant energy with minimal environmental impact, free from reliance on fossil fuels. Laser Fusion represents a paradigm shift—a bold answer to the global energy crisis and a critical tool in combating climate change.
Through visionary Laser Fusion research, precision engineering, and unwavering commitment, we are advancing Laser Fusion as the next great leap in energy technology. Its promise is not distant—it is achievable. This is the dawn of a new energy era, a step toward an energy-secure world where innovation and sustainability go hand in hand. Together, we are building that Laser Fusion-powered future.
Our approach is the closest architecture to the only scientifically proven Laser Fusion system. Our design focuses on manufacturability, with components that can be mass-produced and easily shipped. It will also offer power plant-grade reliability—modulatory creates the highest reliability and serviceability of any fusion system.
We use Deuterium-Tritium fusion fuel and have one of the only target labs in the world to design and optimize fusion fuel. Deuterium-Tritium originates from sea water & lithium and is the only fuel to achieve controlled ignition and gain.
Agreement supports DOE INFUSE project to develop simulation model of wetted foam fusion targets during implosion
Laser systems will be installed at Focused Energy's Laser Development Facility in the Bay Area enabling key technology risk reduction on path to commercialization
Company developed its initial high-gain target design based on direct-drive laser inertial fusion