Their N-Dimensional mathematical systems just made a quantum leap.
Referenced, are the signals and electrical characteristics of quartz crystal, volcanic glass, the electrical and optical properties of phosphors and gas versus the various oxidation and chemical composition of copper and copper oxide, amongst others.
In short, to establish an accurate scientific method of managing complex high dimensional math, vibrations and signals in multiple mediums, communication and institutional management, and the need to couple all of these to an easily understood humanly perceptible system, one needs merely to add a bunch of common and easily understood materials to a pot and grow a crystal structure.
The electrical characteristics of common materials: tangible metals (copper oxide, rectifiers), silica crystal and glass (quartz resonators, etc), temperature and electrical management in the fabrication environment (volcanics, sun, water), additional "alchemist" materials (typically the stuff that doesn't crystallize as salt when you boil sea water), and related gases (like hydrogen .. and .. and .. and ..)
combined with the vibrational characteristics of common materials: quartz crystal, (sapphire/ruby), copper (tin/lead/silver/gold), in both the electrical and sound ranges, and of course the transport mediums such as various water, air, glass, metal compounds.
Although a phosphor material may be usable for visualization of the field signatures, I am far more inclined to expect a gas/plasma or crystalline luminary would be used.
The electrical and optical characteristics in sapphire and ruby should also be noted with the quartz; the combination of a regenerative charge and the resonance of the crystal combined with the other signal modulating materials make a very clean system.
The spherical tonal system components, through the compression of the quartz, was expected to provide coherent signals transport, as does a piezo microphone on a crystal radio [or a polymer-electric "microphone" as an rfid].
Adding into it, more advanced and higher dimensional field modulators and translation systems, especially the matched atomic crystal structures of these and a few other stackable materials, you end up with a very clean and easily managed and constructed system of communication with multiple modes and mediums of signal transport.
Ironically, unchecked logic indicates that one could transport a visual representation of an environment using a simple polarizing filter (quartz), photo electric media (copper), electrical mechanisms (quartz), electrical signals transport (quartz), frequency transposition (copper), and crystal resonance to transmit bidirectionally a photo image by means of a string between two cups. [cups not needed?]
Add to that, more advanced signals management, you can transport 3d+ field characteristics between environments on all mediums with cross-checked signal integrity and project a 3d+ visualization of the environment into an optical display using only very simple crystal structures.
Time to pull out the tin-foil animals and add them to the highly advanced n-d spherical differential computational system described in their math, and see what the crystal ball shows. [cross-hairs?]
pelodic@gmail.com
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