Two resonances are taking place here. 1) The smaller AM signals are to match the resonance of the electrons of the molecule. 2) The larger and slower AM signal modulates the smaller AM signals to higher voltages and what this does is setup the resonance of the Nuclear Magnetic Relaxation (NMR) cycle of the proton water which is approximately 3 secs. You can also use subharmonics of the NMR cycle which would be around 0.5 Hz & 0.25 Hz
@Tony
Interesting scope shot! Gives me a headache how it must be tuned on the water molecule.
@Dave
Tony pointed us to the info on the theory what mostly already written in a book.
If you read "Puharich ELF Magnetic Model of Matter and Mind" book, you can look it up too.
The interesting link Tony gave was the choke part, that also isn't written in that book. Notice that Puharich didn't label a tunable choke in the circuit.
I'm "thinking" that the frequency of the second resonance is always shifting with the first resonance but the frequencies are so high (GHz), generated from the sidebands, and do not disturb the water molecule resonance when the water dielectric properties change the first resonance.
The dielectric properties have most effect on the "voltage amplitude" when out of resonance it is fluctuating. But the PLL is fast enough to lock on resonance. The water molecule never sees this drift because it moves so fast. The water-gap size is fixed so only the choke and water dielectric properties could effect resonance and is adjusted by the PLL.
@All
Questions:
1) When the frequency isn't on the first resonance, is there always AM modulation signal?
2) Do we only see the step-charge signal of the second resonance which is harmonic of the first resonance, because choke inductance differences?
3) The NMR time is the second resonance which is harmonic of the first resonance time. The gate frequency is generating "resonant action" or "phonon effect" and is directly related to the size of the water-gap.
4) Sidebands (fc-sb) and (fc+sb) strength is the peak to peak difference between top and bottom sine waves in the AM wave? So what adjusts the (fc-sb) and (fc+sb) bandwidth and strength. Chokes /gate freq.?
5) Do the sidebands shift left or right width the (first resonance frequency) fc center frequency?
6) Where do we tune into, dielectric properties of water (LCL) and/or the correct amplitude and/or sideband frequency and/or water-gap size?
If someone can elaborate these questions...
Br,
Webmug