Crystals are formed from metals and other substances that develop an intrinsic geometric shape and native bond length and angle. Glass and plastics are not crystals, rather, they are amorphous solids. Crystals occur in nature or they can be man-made. Crystals have a lattice and geometric structure, which in some ways identifies their physical and chemical properties.
They like crystals and are attracted to them as their glitter draws them closer.
Each crystal has a characteristic bond distance, the length between adjacent atoms that forms an ionic rather than a covalent bond. The length of this interatomic bond is the nature of this discussion.
Diamonds, rubies, emeralds, and garnets fascinate and attract them even more. They are a subject of interest and demonstrate worth and intrinsic beauty.
When the energy of a single frequency focuses on a crystal, the crystal bond will absorb the energy and reradiate the energy as a wave function in a lower quantum level. This feature is called lasing. Any even multiplicand of the wave function coincident with the crystal bond length is absorbed and then emitted or lased. The reemitted energy is typical of a crystal bond angle and should not be confused with Albert Einstein’s photoelectric effect of 1925. The reemitted light is coherent and of a single wavelength and demonstrates the intrinsic physical quantities of the initiator crystal in question. In the photoelectric effect, light raises the quantum level of an outer or bonding electron which then falls to the native level and emits a photon. When the energy is of sufficient magnitude and optical quality to be harmonic with the bond length of the intrinsic crystal, it reradiates as another form of energy that may be light, maybe heat, or even the weak force of gravity. Again, this depends on the atomic weight and purity of the crystal as heavier metals demonstrate shorter bond lengths that determine the reradiation profile of that native crystal.
What can we use as the initiator of the energy cascade? Are they who want the beauty inherent to crystals willing to part with their property?
Does it take neutron radiation in a thermonuclear reaction to make the bonds lase? After all a neutron has wavelike properties and a frequency and wavelength associated with it. Can a high-intensity laser designed from a ramped-up photoelectric effect have enough power, E=h*nu to cause the bonds in a crystal to lase? Will the re-emitted spectra have demonstratable qualities and quantities that enable scientists to use these forces productively? Is the re-emitted light in the electromagnetic spectrum or really gravity, or time-space continuity? Are the Di lithium crystals seen in the movie Star Trek a reality or a macabre fantasy of Gene Barry?
They adorn themselves with crystals because they are beautiful just as they are and they show them off unbelieving and unassuming of the true nature of the spectacle that lies within.
What is the energy necessary for crystal lase? Can mankind create the necessary initiation energy and fabricate the necessary crystal for scientific use? Is this re-radiated energy of sufficient character to harness and produce? Will the nature of this energy continue to surprise as it surprises the other throughout history? I don’t know because matter and energy are interconvertible and related to gravity and space-time. The form function is merely an interpretation of the universal wave equation. They wear them and they are as beautiful and desirable as they are. Can I have my personal crystal and bring it home and infuse it with pi mesons to see what will happen? Can it happen to us all? Can a crystal make it happen and bring us to the next star: Alpha Centauri? Is it silicon, carbon, titanium, or even nickel? It all takes birth in a dream and when it is time the maker will surely fill us in with a hint and a smile.