Temperature particles created at the heat source is separated by the \(B\) field coil. Particles repelled by the \(S\) pole of the \(B\) field, that would cancel a \(N\) pole, embed into the magnetic material and create a \(S\) pole. Similarly, particles repelled by the \(N\) pole of the \(B\) field, that would cancel a \(S\) pole, embed into the magnetic material and create a \(N\) pole.
This is why a magnetic material somehow retains the magnetic polarity it is subjected to under high heat.
If such temperature/magnetic particles can exist and flow independently, then we have another pair of particles just as electron and proton, capable of being manipulated in an equivalent circuitry.
These are magnetic monopoles! It is likely that the particle that creates a \(N\) pole, which is perceived to be stronger, has energy oscillating in \(t_c\) and the particle that creates a \(S\) pole has energy oscillating in \(t_g\).
Only more experiments will tell... Have a hot magnetic day.
