The medical status quo focuses on amperage — the volume of current flowing through tissue. Volume produces heat, and heat produces cellular fatigue and damage. This is why most electrotherapies operating in the amperage domain are constrained by burn risk.
Our research focus is exclusively on high-potential gradient. By utilising a 50,000-volt threshold with negligible current (less than one milliamp), we create a stable atmospheric plasma that couples with the human bio-electric field without warming the tissue beneath it. The body experiences potential, not power.
A single spark-gap produces a chaotic, broadband discharge — useful for demonstration, useless for sustained biological coupling. Our circuit uses three spark gaps in series, which forces the pulse train into a coherent, rhythmic output. Energy that would otherwise dissipate as heat is focused into a coherent ionisation wavefront.
That conditioned pulse is then passed through two plasma bulbs that act as a high-dielectric capacitive barrier. The bulbs scrub the residual amperage and surrender only the high-voltage potential — the visible blue-violet flame is the etheric output. This is the ‘cold’ in cold non-equilibrium plasma.
When the body is exposed to this high-potential field, it appears to shift out of chronic-load mode and into a high-efficiency repair state. We do not claim a mechanism. We observe an outcome, repeatedly, across independent investigators.
Heat. Tissue destruction. Cellular fatigue. The reason most electrotherapy is constrained by burn risk.
No penetration. The field cannot couple to the biological volume. Nothing happens.
