The pulsed FRC architecture utilizes a steady-state approach for initial plasma formation, followed by adiabatic magnetic or beam compression to elevate plasma density and temperature to fusion ignition parameters. While this stroke-mode power output is lower than steady-state alternatives, the simplified heating architecture ensures high market competitiveness for 100MW-class distributed applications. This reactor is ideal for decentralized commercial scenarios.

Technical Approach：Pulsed FRC Fusion

Heating Method：Compression

Use Cases：Data centers, remote townships, large chemical plants, offshore floating platforms, etc.