18 million CPU hour simulation of plasma turbulence showing thermal gradients and electron conductivity
Source: Academic supercomputing research
Significance
Demonstrates complexity of modeling fusion plasma behavior
Related Claims
Advanced fusion technology would require massive supercomputers for both development and real-time control.
Hot fusion research discounts relativistic effects assuming plasma operates far below light speed.
Magnetic fields can confine plasma without physical walls allowing creation of plasma smoke rings.
Nature abhors gradients and thermal gradients cause plasma turbulence requiring complex simulations.
Plasma turbulence simulations require 18 million CPU hours to model thermal gradients and electron conductivity.
Spinning plasma can stabilize it and overcome turbulences through centrifugal motion.
Cold fusion may work through resonance effects using relativistic vibration to overcome the Coulomb barrier at lower temperatures.
Exotic vacuum objects or plasma orbs could be created using magnetic fields as the confinement mechanism.
Other Evidence from This Source
Cross-section curves for various fusion fuel reactions showing optimal temperatures for Deuterium tritium helium 3 and other combinations
photographSPARC tokamak cross-section model showing 100 KV plasma temperature gradient to room temperature walls
photographMelted tiles in fusion reactor from plasma filaments hitting walls with high-energy electrons
videoMH370 video showing orbs with orange slice heat signatures and axial jets appearing to spin and flip
Evidence Details
- Type
- Other
- Classification
- simulation
- Source
- Academic supercomputing research