Here we go with something hopefully of interest, of worth and which *could* get us to an OU position by a radically simple method.

It's based on the Magnet Kicker that mariuscivic posted a short while ago on YouTube.
Here's his video: ‪The magnet kicker‬‏ - YouTube
The circuit diagram is within his video and it really is just about the most elegant and simple method of spinning a rotor around. The base info, is that you use a triggering coil to switch the transistor by having it energized by a passing magnet, the transistor then powers the driving coil and nothing else is needed !

My recent endeavours have been to explore the simplicity, trial different coils, work through the best speed to power needs, to extend this principle into a possible COP>1 machine.
The intention is to create a machine that is built from junk. All components used so far have been from old PC monitors and PC fans. Magnets have been derived from hard drives or CD-Rom drives. Something that anyone could build and if you use a CRT monitor, will have usable components right in front of your eyes !

Findings so far include -
The triggering coil can be very very small. Why pump 6V @400mA into a transistor to switch it ?
Many coils will run the circuit, from multi-strand to single strand, from thumb width to pencil lead thin.
All coils will display a constant speed of rotor rotation, no matter what the voltage is.
A MOSFET can replace a transistor and need no resistor or anything else, currently I use an IRF630.
A 7 stranded multi-strand coil will run the circuit as far down as 4.5V - at exactly the same rotor rotation speed as 12V.
Some trigger coils will sing with a resonance, which may facilitate wave data acquisition.
Coils can be moved around the perimeter of the rotor by hand and not affect the running.
Coils can be moved outward or inward to the rotor and the speed remains exactly as before.
Extra generator coils around the rotor do not affect the constant speed running until very close.
The rotor will exhibit an approximate 2Hz hum while running.
A powered coil will hum in the hand when held near to a magnet.
Perhaps the wildest finding - a toroid coil of 7 strands will power the rotor when mounted sideways !

My idea - is to generate power from the passing magnets, such that there is enough to power the rotor. A load may be present or not, no tuning is required, as any extra energy is used by the circuit, displaying no change at all in rotor speed.
The rotation speed can be easily known, the power required to run the machine can be easily known, the variables for self powering are then known.

Here are my videos so far:
Basic replication - ‪Magnet Kicker - replication‬‏ - YouTube
8 different coils Mega-Test - ‪Magnet Kicker - 8 coil Mega-Test‬‏ - YouTube
Sideways multi-strand toroid - ‪Sideways toroid runs Magnet Kicker pulse motor‬‏ - YouTube

I would like to see replicatons of the original and then we can move forward with coil sizings etc and backend simple circuitry to actually make these self power.
I need your help too, because I have little in the way of test equipment. My oscilloscope was fried with HV experiments and only a Sperry SP-6A analog meter is available for voltage/current tests. I also have no RPM meter, but some of you guys do

Good idea ?