All stones are 100% Natural Untreated and Unbacked. Cut Polished And set by me Jared Ayers right her in the USA. Gorgeous Coober Pedy White Precious Opal Ring For Wedding, Engagement, cocktail ring, statement Piece, or a rare Gemstone Collectors dream. Amazing Play Of Color. Red, Amethyst Purple, Gold, Emerald Green, And Orange Play of Color. Absolutely jaw dropping! Pictures Do This Opal Ring No Justice. Enjoy. In the metaphysical world, Opal acts as a prism within the aura, bringing a full spectrum of Light energy to the system, soothing and clearing the emotional body, and boosting the will to live and the joy of one’s earthly existence. It enkindles optimism, enthusiasm and creativity, and allows for the release of inhibitions inspiring love and passion. Opal enhances cosmic consciousness and stimulates flashes of intuition and insight, yet is a protective stone for deep inner work, meditations, and lower world shamanic journeys.
Opal is hydrated silicon dioxide - submicroscopic silica spheres bonded together with water and additional silica, sometimes containing the minerals cristobalite and tridymite. It is amorphous, meaning it has no crystalline structure and no definite chemical composition and is therefore considered to be a “mineraloid” rather than a “mineral.” Over time, this gelatinous mix seeped deep into fractures, veins and between the layers of underground sedimentary rock, and the solidified material, Opal, formed as much of the water evaporated. Even after solidifying, Opal maintains a water content.
Of the three basic types of Opals, “Precious Opal,” also called “Rainbow Opal,” is the rarest, mined in a limited number of locations worldwide and produces brilliant flashes or streaks of iridescent color when turned in the light, a phenomenon known as “play of color.” The color is not due to any pigment in the stone, but are optical effects created when the microscopic spheres of silica hardened in an orderly grid-like pattern, similar to layers of ping-pong balls in a box. The spacing between the spheres causes light waves traveling through Opal’s internal structure to diffract and break up into the colors of the spectrum. The size of the spheres and their geometric packing determines the color and quality of the diffracted light, and the value of the Opal.