It is said that it takes a diamond to cut a diamond. It is also true that it takes a diamond to find a diamond...actually it takes two diamonds. One to transmit and one to receive.

Metal detectors work by measuring and characterizing the frequency received from a conductive mineral or object. The characteristic frequency is nowhere close to the object's fundamental frequency which is much higher. The fundamental frequency of any object is the effective distance between molecules in that object. It is ironic that most gems and metals that we treasure are dense. That is that they have very tightly packed molecules. i.e.

- Diamonds

- Emeralds

- Rubies

- Sapphires

- Gold

- Platinum

- Silver

- Radium

As mentioned, these valued treasures have an extremely high fundamental frequency and we want the exact frequency in order to quickly find the treasures.

For instance, say we are looking for diamonds in alluvial deposits (diamonds in gravel). The individual diamonds are scattered over a wide area in a river bottom under various depths of sand and gravel. The way this Quantum Molecular Detector works is to apply the sub harmonic frequency of the diamond through carbon filaments attached to the transmitter diamonds. The transmitter diamonds will now resonate and output it's primary (fundamental) frequency to a wide area and the diamonds (we are searching for) will resonate and return an increased strength signal back to the detector. A second diamond, set up as a receiver will supply feed back to the user by increasing signal strength when you are close to a diamond. Shielding is used around the transmitter and receiver making direction location possible.

When the prototype is complete, it will be able to find diamonds pretty much anywhere, kimberlite pipes, gravel, on bedrock, anywhere.

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Why Quantum Molecular Detectors?

When we reach frequencies required to detect diamond, the rule of physics change. Quantum physics tries to explain what happens to objects outside the normal boundaries of what we consider to be "normal".

Too slow, too fast, too cold, too hot. The rules change from Classical (Newtonian) physics to Quantum physics at the high and low end of things.

A diamond is a somewhat stable representation of a hyper compressed carbon crystal, formed with immense heat and pressure. When we detect these crystals remotely, the emitted frequency is in essence, beyond our comprehension.

A diamond offers us a way to create a quantum frequency. We don't have to know what the frequency is, we only have to know how to create it.

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