Pale Ghost Green Garnet IS a ♻️ Gem cut from
Industrial Crystal Scrap
Pale Ghost Green Garnet IS A
Fluorescent Gem
Pale Ghost Green Garnet IS grown using the
Czochralski method
Pale Ghost Green Garnet, Asscher Cut, 10.2 Carats
Pale Ghost Green Garnet, Asscher Cut, 10.2 Carats
Pale Ghost Green Garnet, Asscher Cut, 10.2 Carats

Pale Ghost Green Garnet, Asscher Cut, 10.2 Carats

SQO189

Regular price$575.00
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Shipping calculated at checkout.

🧪🧪🧪 If you're searching for a repurposed, eco-friendly, and intriguing lab-grown garnet, this could be the one! Pr:LuAG exhibits a fascinating salmon fluorescence under UV light, adding a unique touch to its beauty. The architectural Asscher cut enhances its elegance, making this gem perfect for any style of jewelry. Create a one-of-a-kind piece that is both dazzling and distinctive, with a gemstone durable enough to last a lifetime.

DIMENSIONS AND SHAPE

Size: 9.08mm x 9.2mm x 7.69mm

Weight: 10.2  carats

Cut: Asscher

Shape: Square

Clarity: Loupe Clean

Inclusions: None

Treatment:None

 

PHYSICAL PROPERTIES

MOHS hardness: 8.0

Pleochroism: 

Dispersion: 0.025

Density: 6.7

Refractive Index: 1.9

Chemical Formula:Lu3Al5O12


POSSIBLE JEWELRY APPLICATIONS

Engagement Ring, Daily Wear, and Pendant

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🌍 GENERAL MATERIAL DESCRIPTION

  • Material Name:Pr:LuAG
  • Country of Origin : China
  • Growth Method: Czochralski

Praseodymium-doped lutetium aluminum garnet (Pr) is a synthetic crystal known for its superior optical and luminescent properties. LuAG, or lutetium aluminum garnet, is a stable and durable host material that becomes even more versatile when doped with praseodymium ions. These ions enhance the crystal's ability to emit bright and intense light when excited by an external energy source, such as a laser. This makes Pr highly valuable in various applications, including as scintillators in radiation detection, laser gain media, and in solid-state lighting. Its efficiency and stability make it an ideal choice for high-performance optical systems where reliability and consistent output are critical.In addition to its impressive optical characteristics, Pr is recognized for its high density and atomic number, which make it particularly effective in medical imaging and radiation detection. The material's robustness enables it to withstand harsh conditions, such as high temperatures and radiation exposure, without significant degradation. This resilience, combined with its excellent luminescent efficiency, makes Pr a preferred material in advanced technological applications. Ongoing research and development continue to uncover new uses for Pr, solidifying its role as a crucial component in the advancement of photonics, optoelectronics, and other high-tech fields.

🏭 SPECIFIC Lot INFORMATION

This lot was scrap material from an industrial LuAG producer.


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🧠 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.