Exotic Vacuum Object Plasma Orbs
Suggests that self-contained plasma structures using electromagnetic fields for confinement could exist as permanent stable fusion reactors
This theory falls within the Energy & Physics research cluster, exploring advanced propulsion, fusion reactor designs, and unconventional energy technologies that may operate outside the boundaries of publicly acknowledged science.
Supporting Points
- Magnetic fields can confine plasma without walls
- Smoke ring plasma structures could be created
- Stability longer than classical physics predicts
Claims from This Video
Deuterium-tritium fusion has the highest cross-section at the lowest temperature making it the preferred hot fusion reaction.
Hot fusion research discounts relativistic effects assuming plasma operates far below light speed.
Tokamak fusion reactors have the largest temperature gradient in the solar system between plasma center and wall.
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.
Tokamak walls are vulnerable to plasma disruptions that can melt walls similar to solar flares.
Cold fusion may work through resonance effects using relativistic vibration to overcome the Coulomb barrier at lower temperatures.
Advanced fusion technology would require massive supercomputers for both development and real-time control.