I think we should leave criticism behind. I appreciate the research and wish to duplicate this,. One issue I'm having in duplicating is understanding and finding sources for the components in the diagram. Europe and US equivalents are not easily identifield by this schematic for a layman like myself. Please post complete specifications for each individual component required to duplicate your experiment. If providing part numbers, then also post the source to purchase from.

if anybody inquires, the most important thing now is for experimenters to monitor changes in beta decay rate and use that as guide to further development they WILL see anomalous beta decay - thing to do is pursue it

You guys don't know what you're talking about. You state that there's "no current" running through wire based upon the fact that you see a zero reading on a DC ammeter. Are you actually so stupid not to consider that there may be AC current?

I have always saw this low voltage attempts to send scalar waves with skepticism. Definitively, there's a lot of things that make me think that it is not scalar, is simply HV in HF conventional electromagnetic electricity. Look Eric Dollard video & see when he puts a copper strip which is attracted by the scalar light bulb. That's irradiant energy which is the truly nature of ScalarE. Have you tried to dig the bulbs on the water? That's not definitively, but the copper strip is. Agree with z1zaz

Just found this.

1. I thought "nice circuit" until I saw it constructed on plug-in-strips having inter-capacitance.

2. This is not SCALAR - scalar is a form of EM radiation = NO WIRES.

3. This is NOT Radiant Energy either.  It is HF OSCILLATOR with alternating current in wire.

4. Lamps light in series with the capacitive impedance of EM free space.

5. Of course there is wire current; it is alternating not DC !

6. You fail to show DC current draw from 45V battery.

You need to study more.

whatchyahave there is one wire power with a capacitive link. No quantum. no gyration. No Elvis. No tesla. But it looks neat :)

you mean the link to the documents? its in the description!

Wow! Very Brillant! :-bd I wait for papers about the theoretical background to fully understand the phenomenum :) but for measurement, yes, would be better if you could each time both on primary circuit and with HF measurements or at least a series of incandescent bulbs to have a scale of the real/active power on the batteries circuit and same on the open loop ;)

Good job any way! And very thanks for having shared your experiment, and so, to contribute in a better future :) <3

@Khwartz samertje.info/QRG/docs

@samertje Sorry, when I type this in Goo... I find anything but not your page :/

@samertje Now it's ok, your link received in my mail-box has run ok :) thanks for these many materials :-bd

Great video clip and great demonstration of the "tesla waves".. Magnitude is just missing, that is the principle.. Just a a vector, I have found that cold beam plasma modulated will also produce these long vector tesla (waves), these are not waves by the standard use of hertz definition..These tesla waves will travel through anything.. They also alter local space time, it depends how wide the area of influence is and the modulation.. A link to my latest tesla wave watch?v=VKzkvoTsixY

Is this a kind of cold electricity ?

Would you try to make a bigger version like more bright bulb or led bulb ?

Thank you for your contribution.

@theENERGYDREAM working on it

Your not measuring current because it is a DC meter. Your transmitting a RF wave through the wire.

I can do the same thing with my transmitter by holding a fluorescent tube or through a single wire.

The led circuit makes a complete circuit through the antenna, it is capacitively coupled to the other circuit through air or ground.

Your hand capacitively couples to the circuit.

Lets see the waveform on a scope and see what it looks like

cool stuff



from: OfficialGTwebsites 

I guess he's right about the meter, that's not a very good test...

I got this message!!! " Wow, who is paying you to help destroy the free energy community? Big Oil? The galactic federation of viruses? An analog meter to measure high frequencies, LMAO?!?! If you were even remotely sincere, you would add a message in the beginning of your video apologizing for your silly errors and distracting the entire free energy community. Don't reply back with childish replies asking which video I'm talking about because your now blocked and I won't get your message. "

... continued: Then, how to measure reliably battery current? One simple means is to again use a small bulb as a current indicator. A 6 ... 12 V 100 ... 300 mA bulb in series with the batteries should work I guess. Just check correct bulb voltage ans amperage for your circuit by trying with different bulbs. The light intensity of a glowing bulb is a very reliable indicator of true battery current of a HF circuit supply.

Battery current measuring: The batteries of this circuit are also part of a high frecuency current circuit. They make a kind of other half of the aerial. They may act as a capacitive HF lead to ground. So any common multimeter connected to batteries for current will behave funny. It may point too much or too little or even reverse. HF currents jump through their own capacitive shortcuts within the multimeter to its sensitive semiconductor measuring circuits. - continued...

Tip: Where to get small bulbs for high frequency (HF) current experiments? Good source for abt. 24 ... 36 V low current bulbs are those decorative Christmas lights that are connected direct to mains. These Christmas decorations have many bulbs connected in series and they start to glow from currents of tens of mA or so. Just extract as many bulbs as you need. Also the smallest car instrument panel light bulbs mey work well as HF current indicators, particularly the 24 V ones.

... continued: Unrectified coil meters are no good for showing HF aerial currents quite as you demonstrated. Congrats for making a simple transmitter circuit for high frequency experimenters! Trying it will teach a lot more about practical and curious behavior of high frecuency (HF) currents than bare schoolbooks can! As a ham radio experimenter of practical low power HF circuits I appreciate your way of reporting about your experiments to public. Regards, OH7HJ, Finland.

... continued: Suggestion: You should be able to lit a small flashlight incandescent bulb by placing it amid the aerial wire instead of leds. A bulb does not need diode rectifier to light up by HF current like the leds need. Your operating voltage of batteries in series appears to be about 36 volts so I would suggest start experimenting with about 24-48 V 0,5-1 W bulbs. Small bulbs are commonly used as aerial current indicators of low power HF transmitters. - continued...

Hi! A nice demonstration! Question: Have you measured the frequency it oscillates on? It should be easy by placing a wire near it which is connected to an oscilloscope or counter or any HF receiver or measuring device you might have. - continued...

Looks like a regular oscillator to me. Also behaves the same way.

You should have showed reversing the poles on the meter.

And why so much batteries? Diodes need less i think?

@anunakibg the effect is reached with a certain amount of voltage, the current running there is about 5 to 10 mA

Can you measure what source of energy is coming from the white wire? I mean when you change the distance with your finger the light is changing. Positive or negative is inserting from the aether?

@anunakibg dont understand sorry... could you rephrase please?

Henry Moray duplicated circuit ->|<-

Sorry but you are completely wrong. What you are doing is 100% conventional and is seen in may places all the time. My challenge to you is to figure out the real explanation and then come back with a follow-up clip to explain what is really going on. Good luck and I hope that you take up the challenge.

@User2718218 Do you have sources, I'm very interested :)

@samertje I'll just give you the answer and you can do some searching. The circuit on the left side of your schematic is just a high-frequecy AC oscillator. There is nothing special about it, there are hundreds of high-frequecy AC oscillators out there. The AC voltage signal travels down the single wire and there is an associated AC current in the single wire. That AC current makes the LEDs light up.

2nd: On the far side of the LEDs your schematic shows an "antenna." It's not an antenna at all. This length of wire is actually one half of a capacitor. The other half of the capacitor is the top of the desk. Between the wire and the desk there is what's called "stray capacitance." Capacitors conduct high-frequency AC and the current that's going through the wire and the LEDs is flowing through the stray capacitance to ground. The top of the desk is the electrical ground.

3rd: It may sound strange but that's exactly what's happening.  On oscillator side, that also has a stray capacitance with the top of the desk and that also conducts AC current. So the whole thing is simply a standard two-wire AC oscillator lighting up some LEDs which are the load. The second "wire" is actually the desktop, and the current flow through the desktop is all AC coupled through stray capacitance. This is all mundane and normal stuff you see all the time.

4th: Where did you get "gyrator" from? Look that up on Wikipedia and read about it. It's a hypothetical two-port circuit element that can only be simulated with active components, it doesn't exist in real life. Your circuit is ordinary, boring, and mundane. Sorry but that's the truth. The only thing that is "resonating" is the oscillator, but that's what oscillators do. Nothing else is resonating and there is nothing "quantum" in your circuit.

5th: To give you some context, what you are demonstrating here is something that anybody that plays with any high-frequency AC circuit will observe, just about anywhere. You can hold an LED in your hand and touch just about any part of the circuit and the LED will light up. Look at Lidmotor's clips and you will find dozens of clips that demonstrate this phenomenon.

Hi! Are the blue capacitors behind the LEDs part of the circuit? If so, how are they connected and what value are they? I'm going to replicate it.

gyrator? i have to look that up. Thank cool stuff.

Using a what appears to be a DC Microamp meter I doubt that you will detect any current as any current will be in the rf range. The addittion of the extra wire to the antenna makes the leds light brighter, but to me that indicaes that you have just tunned the antenna circuit with the extra wire and detunned it without since the lights are part of the antenna circuit. But i will reserve my judgement and cobble one togther

@Eltimple How's the cobbling going ? Please keep us updated.

Awesome content samertje, never heard of a gyrator before.