Temperature comparison: DPF plasmoid at 260 keV vs sun core at 1 keV
Source: Fusion physics research
Significance
Demonstrates feasibility of achieving fusion temperatures
Related Claims
Chirped pulse amplification lasers (2018 Nobel Prize) enable non-equilibrium cold plasmas needed for hydrogen-boron fusion
Dense plasma at 260 keV can achieve fusion temperatures exceeding the sun's core (1 keV)
Hydrogen-boron fusion produces three helium nuclei and enables direct energy conversion without thermal cycle
The heat signature of orbs represents clustered electrons from reverse field configuration
The kink instability in plasma focus devices produces useful propulsion jets rather than being a problem to eliminate
Other Evidence from This Source
Patents by Salvatore Pais on high energy electromagnetic field generators and magnetically confined fusion
photographAnimation and photos of dense plasma focus device showing filament formation and plasmoid
videoMH370 footage showing plasma orbs with lines/streams in front and behind them
Evidence Details
- Type
- Data & Signals
- Classification
- data
- Source
- Fusion physics research