Nuclear Magnetic Resonance (Resonation, Stimulation) and electronic/magnetic detection of valuable elements underground, underwater or otherwise.

Resonator technology for the purpose of detecting gold, silver and platinum as well as various jewels (precious gems) have been around for a long time now and I have tested many a machine only to find that few of them actually work and the one’s that do work, only work on rare occasions from my experience. Even so the cost of one of these machines goes anywhere from $2,000.00 to $40.000.00

Many years ago I owned and operated a detection business (Roberts GEO Detection Service) where I sold my services to find water, (tunnels) gold and other valuables for others. This was an O.K. business, but I always believed that there was a better way to more accurately define elements at a great distance and or from the surface of the ground. One of the biggest problems was to be very sure of a target before excavation begin, because this endeavor is very expensive whether it be for a hidden treasure or gold veins.

Even a good metal detector was/is not sufficient for a long range scan of an area to so eliminate a lot of (turf) search time and quickly know if in fact there really is a valuable target there.

My EM 83 Pulse-Type Detector was capable of going some 600 feet deep, but it was not selectively definitive on single elements. Yes it could tell when we had a conductive mass and the general depth and size, but not the composition matrix.

Over the years I did a lot of research on frequency technology and built several resonators in an attempt to discover and rectify not only why all the resonators I tested did not work very well for me, if at all, but also to develop one that did work accurately. I found out several things; the frequencies that are in common use are not the correct frequencies for the elements being searched for, especially with the capricious cosmic and thermo conditions in attendance. The commercially available resonators have a set frequency for the elements and because of endothermic and exothermal effects as well as cosmic anomalies the atomic spacing of most elements changes on a daily bases to some degree. For example Fe can resonate generally at 99.6 to100 or so Hz and approximately 200, 400, 800 or 1600 Hz at 70 degrees F, but when it is say 32 degrees it will resonate at a higher frequency and at say 110 degrees F at a lower frequency, not to mention other cosmic anomalies (undisclosed) present intermittently. I have a way of absolutely knowing when an element is in resonation without any guesswork and when it is in resonation I can now accurately detect it.

High frequencies take an enormous amount of energy to deliver and penetrate a target and so it is that I use whole frequencies, i.e. low, medium and high and that allows me to detect elements and compounds at a distance of several miles and very deep in the ground. I have even been able to detect a gold coin through a lead box. Usually I use a low frequency as a carrier for the high frequency, because this will penetrate deeper with far lass energy.

At very low frequencies the elements are very close in resonant frequency i.e. silica/glass is only about two to three tenths of a hertz away from quartz and gold is only two tenths of a Hz away from gold, then the next element is Iridium, then Uranium and etc. When the resonant frequencies change just a little from earth temperature changes as well as cosmic anomalies then this is plenty enough to lose accuracy and dig another empty hole.

I used to use a traditional sine wave generator (where I could change the frequencies on site) with a special power supply and some special antennas.    I also used an oscilloscope and a sample of the elements in field to (on site) to calibrate and facilitate the changes in resonant frequencies of the elements. This way I was able be as precise as I needed to be. Finally after a few years I found a better way to do NMR and without a traditional sine wave generator. I have been using this new system now for three years when doing work in the field. I still have a traditional sine wave generator and sometimes play with it just for fun, but it takes way too long to tweak the ever fluctuating frequencies and correct them for my use. My box that I call the Jericho uses a traditional frequency generator. What I now use can and sometimes does get mistaken for a traditional sine wave generator, adapted to a swivel antenna, but then that is my secret and I think it is O.K., because I am protecting my technology from discovery. I use an element sample (say silver) and stimulate it is such a peculiar way that it spontaneously causes the silver to send out its own frequency signal in multiple octaves that are clean and true. When this happens, the silver in other places will also resonate and develop a magnetic field around the target and be detectable by a swivel antenna, no different than a compass that points to the North & South poles. In essence I am creating frequencies, so yes I am using a wave generator, but not what is being used by many of the detection machines on the market today.

I am a competent assayer of precious metals and I own and operate an assay laboratory. When I was doing further research with my peculiar frequency detection technology I would detect an underground element and then recover and take it to the lab and (document) verify my findings.

This way I was absolutely sure. One time (in my early research) I was using a regular sine wave generator set for H2O (41 and 57.9 Hertz) and detected Iridium 193 because at low frequencies this element and water are very close in resonant frequency then in order to be sure I set for Iridium 191 because these two isotopes not only always come together, but have different resonant frequencies and so it did give me a reading, so I knew I had Iridium and not water. This technology is very sensitive and has no room for even the slightest errors in detection. My frequency charts showed the close proximity of those elements that are indeed close in resonant frequency at times. Finding such things as bones is another aspect of this technology that makes it work fine for Anthropology, Archeology, as well as Police work. Setting frequency for calcium is not good enough to find bones, because there is calcium deposits in nature and this would be confusing. Therefore I often double check by signaling some of the other elements peculiar to bones

Last year I did a sight for some people that were looking for some Spanish gold and the mountain (in question) had around 15 deposits of placer gold and so it made it more difficult to define, but I am able to generally define relative density of elements on site so this turned good. I also set the “Jericho Unit” for brass, bones, iron and gold, which further defined the target, because there were apparently Spanish armor and dead Spaniards in the tunnel, then I went to the edge of the target and set the “Jericho Unit” for air and found the tunnel as well as the shallow part of it.

Roberts GEO Detection Service charged around $650.00 per day as well as travel time and all expenses. At present (with my new equipment) I am able to do in one hour what I could previously do in one entire day or so, but now I can also be definitive and selective on single elements and their respective isotopes. At present I charge $1,000.00 per day plus travel time to and from the job with all expenses that are job related.

Cordially, Robert

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Data on resonance explained.

Resonator from Wikipedia, the free encyclopedia

A resonator is a device or system that exhibits resonance or resonant behavior, that is, it naturally oscillates at some frequencies, called its resonance frequencies, with greater amplitude than at others. Although its usage has broadened, the term usually refers to a physical object that oscillates at specific frequencies because its dimensions are an integral multiple of the wavelength at those frequencies. The oscillations or waves in a resonator can be either electromagnetic or mechanical. Resonators are used to either generate waves of specific frequencies or to select specific frequencies from a signal. Musical instruments use acoustic resonators that produce sound waves of specific tones.

A cavity resonator, usually used in reference to electromagnetic resonators, is one in which the waves exist in a hollow space inside the device. Acoustic cavity resonators, in which sound is produced by air vibrating in a cavity with one opening, are known as Helmholtz resonators.