Experimental Samarium YAG, Ascher Cut, 28.25 Carats - DJEVA
Experimental Samarium YAG, Asscher Cut, 28.25 Carats
Experimental Samarium YAG, Asscher Cut, 28.25 Carats
Experimental Samarium YAG, Asscher Cut, 28.25 Carats
Experimental Samarium YAG, Asscher Cut, 28.25 Carats
Experimental Samarium YAG, Asscher Cut, 28.25 Carats

Experimental Samarium YAG, Asscher Cut, 28.25 Carats

SQO47

Regular price$950.00
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🍾🍾🍾 This material is truly exceptional and scarce! It was developed experimentally for presentation at a trade show in China, and there are no plans for its continued production. Fascinatingly, this color-changing gem transitions from white to champagne under natural sunlight or full spectrum lighting. With an Asscher cut, it promises to be a breathtaking addition to any piece of jewelry, perfectly complementing architectural or Art Deco designs.

DIMENSIONS AND SHAPE

Size: 14.93mm x 14.81mm x 10.74mm

Weight: 28.25  carats

Cut: Asscher

Shape: Square

Clarity: Loupe Clean

Inclusions: None

Treatment:None

 

PHYSICAL PROPERTIES

MOHS hardness: 8.5

Pleochroism: 

Dispersion: 0.028

Density: 4.6

Refractive Index: 1.83

Chemical Formula:Y3A15O12


POSSIBLE JEWELRY APPLICATIONS

Pendant, Cocktail Ring, and Business Wear

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🌍 GENERAL MATERIAL DESCRIPTION

  • Material Name:Sm:YAG
  • Country of Origin : China
  • Growth Method:

Samarium-doped yttrium aluminum garnet (YAG) is a synthetic crystalline material that is used in various optical applications due to its unique luminescent properties. This doped YAG combines the robust structural qualities of yttrium aluminum garnet with the specific light-emitting characteristics of samarium ions. When samarium ions are introduced into the YAG crystal lattice, they can absorb and emit light in distinctive wavelength bands, making samarium-doped YAG particularly useful for lasers, phosphors, and optical isolators. Its ability to produce precise wavelengths of light is crucial for applications requiring fine control over light emission, such as in medical lasers, telecommunications, and in the development of efficient lighting solutions. The doping process enhances the crystal's thermal stability and optical efficiency, making it a versatile and reliable material for advanced photonic devices.

🏭 SPECIFIC Lot INFORMATION

We were offered the product from one of our regular suppliers in China that brokers scrap material from various industrial crystal growing factories. We were told this product was produced for experimental testing without any information about the application. It has an extremely strong Orange fluorescence and a really interesting color shift when taking outdoors into sunlight.


🧠 Gemology Literature

The articles cited here about lab created gemstones are all open source and chronologically sorted for quick and easy access. Each article comes from either the Journal of Gemmology (JofG) or Gems and Gemmology (G&G) archives.