I would like to let you know that the circuit configuration that you are using in this video, is considered a Bedini Circuit (when the load 'LED' is placed across the coil).

A joule thief circuit will have the load placed across the transistor.

Try the experiment again with the LED across the transistor. And post your results.

Good Luck

@saracomm, my recent video show that a self canceling inductance coil will produce less radiant. about LED, I would not place any LED in my circuit output now because LED will ultimately fried with my 150V output of 555 version or 800V output of my MJT version. Just fried another one for fun a couple of days ago...

A test with neon bulb or amp meter should show it better. Although you will need a circuit running at 12V with good switching capability to be able to do this.

@saracomm, my recent video show that a self canceling inductance coil will produce less radiant. about LED, I would not place any LED in my circuit output now because LED will ultimately fried with my 150V output of 555 version or 800V output of my MJT version. Just fried another one for fun a couple of days ago...

A test with neon bulb or amp meter should show it better. Although you will need a circuit running at 12V with good switching capability to be able to do this.

various nice comparison video. I think if you add some caps, you can tune and make the LED bright for any of the coil choices. You need to hit the resonance ... and if self-inductance is not matching a frequency with lots of RF ... a cap can help you tune it to where the energy lies.

Unfortunately I don't have scope to tune this circuit. I also found that capacitor reduce input current, but also reduce output current. I found adding PNP to usual joule thief give better output with lower input.

Authentic scalar coil technology will not produce heat or Back EMF eventhough high power of oscillating electricity flows through them.

Please note that it can be dangerous for you being around suche ZPE circuit if you don't know how to process your inner body-mental-energy reaction to scalar waves coming from the sacred coil.

Yes Tesla has patent on superconductor utilizing flat spiral, which may apply to other self negating induction coil

Tesla mention the behaviour is from current fall duration. Low frequency will hurt people, while high frequency isn't. As for danger, Tesla died in old age, so I assume it is safe.

As for psychic property of this kind of coil, I guess it highly depend on luck and what we currently learn.

By the way, i suggest you wind a scalar coil aka caduceus coil aka tensor coil then insert teh coil into your actual circuit. You should normally find out that your LED will be NOT able to steal any Back EMF energy (heat, joule,...).

Are you saying that the coil do not produce much BEMF? I will try that.

Notice that in my joule thief LED installed in recovery part, where LED negative is connected to battery positive. If the coil do not allow the LED to light up then it is a coil that we should avoid.

It looks like that once you will have a scope and signal generator, you'll find different resonance frequency of your different coils.

Since you've done an oscillator, different coil frequency = different speed of LED lighting so this has nothing to do with more efficient Back EMF used to power your diode.

P.S. Extracting Back EMF is not free energy production

Yes. I think I would find different resonant frequency.

I found out that there is frequency sweet spot for best lighting and input current, and there seems to be a 2nd, 3rd and so on.

Yeap and I also suggest you systematically measure Voltage (V) and Intensity (A) on the diode then make average Power computation = V x A to make authentic comparison of which coil winding gives better Back EMF extraction.

Most person in zero point energy studies think they found a better wiring in comparing only Volts rise or only Amperes rises without monitoring Power rise so they end up concluding I have a free energy or radiant energy generator... The real test is power (Watts) measurement

True. Unfortunately measuring it with amp meter will turn off the LED so observation while measuring is impossible. But in case of resistance, since I use the same cable, it should all be the same

Oups, another thing: what DC voltage power supply do you apply to your circuit ?

See BEMF test video, the one that use LED. LED would only flashing when the current passing the coil is disconnected. I know it oscillating because the LED keep lighting up.

With different coil (I use 1Amp transformer) at 12V source, I can hear the frequency trough computer mic. I use computer power supply for 12V version, it rated as 11.5V, and for 1.5 version I use old battery which has about 1.3V left.

I'll see if I can made a video of it.

Do you confirm having oscillating current in your coil or in other words, does your circuit 100 ohm, 2N3055, coil is an oscillator ?

I'm a bit lost on how you actually build (wire) your coil, would be nice you make a video.

Another question: what is oscillating frequency of your circuit:

- tubular coil

- tesla coil

- moebius coil

The resistance is about 1 to 4 ohm. The important part is to make paired wire untwisted, or else it would reduce efficiency. Using toroid core would boost performance.

For seike detector, Meyl mention it in his book. I don't know how to post picture link, sorry. I will post it on energeticforum.

BTW, my moebius coil is different from Prof. Seike moebius coil.

Unfortunately, I don't have a scope or signal generator, so I can't measure resonance frequency of each of them.

What is the resistance (ohm) of your circuit ?

Can you provide details on how to build radiant energy detector using a moebius coil based on Pr. Seninichi Seike

Thank you in advance

kool

Very Nice sucahyovideo

Thank you for posting this.