Resources
Affordable, manageable, practical, and scalable high-yield and high-gain inertial fusion
Shares our path to building a first-of-a-kind inertial fusion system that meets our AMPS criteria — affordable, manageable, practical, and scalable — while achieving record-breaking performance
Analysis of preheat propagation in MagLIF-like plasmas
Examines how preheat energy propagates through magnetized fuel in MagLIF configurations — showing that the resulting stratification of fuel density and magnetic field has significant implications for magnetic flux conservation and overall implosion performance.
Validation of FLASH for magnetically driven inertial confinement fusion target design
Details how we developed our simulation tools and validated them against a rigorous set of benchmarks covering the essential phenomena for modeling our approach to fusion at ignition scale.
Opportunities in pulsed magnetic fusion energy
Outlines the architecture underpinning our pulser-driven inertial fusion system — explaining why pulser-driven inertial fusion is the most promising path to commercial fusion energy, with experimentally demonstrated performance comparable to that of laser-driven inertial fusion.