For wireless transfer, should refer to basic transformers and how the wire size and windings effect the output, same size emf magnet the same size as the pick up, the output would be about 1:1 more windings on the pickup will increase the generated current in the pickup coils like 1:2 or more.
The original idea was based on airgap transformer technology, wireless charging type, instead of just 1 to 1 transformer be more like 1 to 6 or so, we may get less return per coil but more over all i think, all on the same input power. There was really no need for the pulse motor, the pulse would be applied through the collapse and generating em fields. The coils need to add up to 100.1% minimum, the more the better. The ring of coils i think should be litz wound coil, wire of what ever size you decide on. Better collection from the pulse imo.
For wireless transfer, should refer to basic transformers and how the wire size and windings effect the output, same size emf magnet the same size as the pick up, the output would be about 1:1 more windings on the pickup will increase the generated current in the pickup coils like 1:2 or more.
The original idea was based on airgap transformer technology, wireless charging type, instead of just 1 to 1 transformer be more like 1 to 6 or so, we may get less return per coil but more over all i think, all on the same input power. There was really no need for the pulse motor, the pulse would be applied through the collapse and generating em fields. The coils need to add up to 100.1% minimum, the more the better. The ring of coils i think should be litz wound coil, wire of what ever size you decide on. Better collection from the pulse imo.
You should have amps in the system and it should be as strong as the original emf that was generated minus loses, but still present in the spikes
Perhaps a decent name "cascading emf propagater".