The steady-state FRC architecture employs azimuthal compression fields or neutral beams to generate initial plasma, which is then elevated to fusion parameters via traditional heating. Neutral Beam Injection (NBI) is utilized to maintain the FRC for continuous fusion and energy output. Since FRC fuel density can be 1–2 orders of magnitude higher than that of Tokamaks, the power density for the same volume can be at least 100 times higher (Fusion power P∝n², where n represents fuel density). This provides a decisive competitive advantage for grid-scale commercialization.

Technical Approach：Steady-State FRC Fusion

Heating Method：RF Heating / Neutral Beam Injection

Use Cases：Utility-scale grid integration.