Coulomb Barrier Screening
Scientists / Papers
General physics concepts referenced in context of cold fusion
Theories Citing This Reference (6)
Aneutronic Fusion via Spin Alignment
Using magnetic fields to align the spin of deuterium lowers the Coulomb barrier, allowing for non-radioactive fusion into helium at lower energies.
Cool Fusion via Coulomb Barrier Reduction
The theory that fusion can occur at lower temperatures ('cool fusion') by using spacetime manipulation or high-density electron fields to reduce the Coulomb barrier, enabling aneutronic fusion (Proton-Boron 11) in compact devices.
Electron Screening for Low-Temperature Fusion
Fusion can be achieved at lower temperatures by flooding ions with electrons to screen the Coulomb barrier, increasing reaction cross-sections by orders of magnitude.
Gravity-Electromagnetism Coupling via Extra Dimensions
The 'high beta' regime in IEC fusion couples gravity to electromagnetism through an extra dimension, allowing the reduction of the Coulomb barrier and enabling aneutronic fusion at lower temperatures.
Orange Slice Heat Signature as Min Field Ionizer
The distinct orange heat signature seen in MH370 footage is the 'min field ionizer' component of the DPF device, which uses high-frequency AC to screen the Coulomb barrier.
Spin-Aligned Cold Fusion
The hypothesis that aligning the quantum spin of deuterium nuclei using magnetic fields lowers the Coulomb barrier, allowing fusion to occur at low temperatures without neutron radiation.