7.- Superconductivity: Paired Electrons

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In the classic sphere-like model of the electron, the repulsive force between equal charges will always take them apart,...
...making it impossible for them to form bound states.
This is not true with the Spinning Particle Model.
Theoretically the particles can form bound states provided their spins are parallel.
The repulsive force between charges turns out into an attractive force between the CMs.
The CMs must be separated a distance below Compton's wavelength.
You can see here, at very low velocity, the description of the formation of a bound pair of electrons with parallel spins.
This description is depicted in a frame where the CM1 of one of the electrons is at rest.
The frequency of the motions of the CCs is much faster than the frequency of the motions of the CMs.
The repulsive force between the CCs produces an attractive force between the CMs
It can be computed mathematically that these bound states are stable even at very high temperatures,...
...thus it should be possible to form spin 1 condensates at room temperature (superconducting materials).

Category:

Science & Technology

Tags:

• Spin
• electron
• structure
• model
• fundamental
• elementary
• spinning
• particles
• Theoretical
• Physics
• chirality
• superconductivity
• Giant
• Magnetoresistance
• tunnel
• effect
• antiparticle

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