How do you measure the current ?

You did not answer the question.

What is the current resolution of this meter and how does it respond to high-crest-factor current pulses ?

I am afraid that nobody have instruments to measure free energy

So you are blind to currents less than 10mA and v/i timings.
Do you have an oscilloscope ?
Yes. No.

Most of the members here are "Self-taught" and understand the concept of the crest-factor.
Thanks for the link, I'm clearly a very small fish here.

No, the reason is the lack of appropriate measuring devices for measuring small pulsed currents.
The current flowing through a coil does not reverse direction during the "back EMF pulse".
What is equal "at the point of magnetic equilibrium" ?
The attraction between the top and bottom coil cores. Which is the same point where the hall sensor activates the em coil to attract, turning off directly above the core. This is the technique Robert Adams used

What is the inductance and resistance of your coils ?
42m x 0.022 (3 x 14m x 1mm dia wound on 20mm threaded sleeve over a 12mm thread)
Haven't looked at inductance calcs.

Where does your coil pulsing regime put you on this graph ?
More calculations to do.

Are your threaded rods ferromagnetic ?
Yes

Are you aware that even non-ferromagnetic conductive objects subjected to varying magnetic fields, will have eddy-currents induced in them, which cause mechanical braking and losses ?
Yes, but considering I can spin the rotor easily with a couple of fingers and watch the perspex flex under about 30kg of force on each side, outside resistance is largely insignificant. The bearing in the rotor cops a flogging however.

Are you able to plot the torque vs angle of your rotor as shown in this video ?
More calculations to do.

If my sentence does not end with a question mark then you need not reply to it ...but you may comment it optionally if you wish.

Hey all, dropping by to show off my latest creation. This is essentially an axial version of the Adams Generator.

Results so far... 9V in / 18V out (bottom EM coil), no heat, no current draw. Top coil is putting out a lazy 27-36V...

That was a lot of work!
Did you notice that there is no low-reluctance path for the return flux from these coils ?

Reluctance in a magnetic circuit is analogous to resistance in an electric circuit. 
Magnetic flux in a magnetic circuit is analogous to current in an electric circuit.
Return flux is the flux which loops back and completes the magnetic circuit.
Magnetic flux always forms complete loops, so it must return. There is no way to get around that.
Does this help ?

Read this thread where we tried to do a similar recovery of energy stored in a motor winding.

This thread is also relevant but you need to be logged-in to see the diagrams and attachments.
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P.S.
Someone needs to talk to Stefan about the visibility of attachments to Guests visiting his new "Archive".  It's not like they can create a new account there...
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