Repurposed Laser Alexandrite IS a ♻️ Gem cut from
Laser Crystal Scrap
Repurposed Laser Alexandrite IS A
Fluorescent Gem
Repurposed Laser Alexandrite IS A
Color Change Gem
Repurposed Laser Alexandrite IS grown using the
Czochralski method
Repurposed Laser Alexandrite, Pixel Rectangle Cut, 8.7 Carats
Repurposed Laser Alexandrite, Pixel Rectangle Cut, 8.7 Carats
Repurposed Laser Alexandrite, Pixel Rectangle Cut, 8.7 Carats

Repurposed Laser Alexandrite, Pixel Rectangle Cut, 8.7 Carats

SQO291

Regular price$750.00
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💙💜🩷 This absolutely stunning, eco-friendly lab-created Alexandrite is crafted from chromium-doped chrysoberyl, a material renowned for its use in advanced laser applications within medical devices. Beyond its impressive functionality, this gemstone exudes a unique beauty, especially when cut in a modern pixel cut design, which enhances its natural ability to shift colors and sparkle in various lighting conditions. This remarkable gemstone, with its blend of durability and visual intrigue, will inspire a timeless, elegant piece of jewelry to be treasured for a lifetime.

DIMENSIONS AND SHAPE

Size: 12.55mm x 10.0mm x 6.97mm

Weight: 8.7  carats

Cut: Pixel Rectangle

Shape: Rectangle

Clarity: Loupe Clean

Inclusions: None

Treatment:None

 

PHYSICAL PROPERTIES

MOHS hardness: 8.5

Pleochroism: Trichroic

Dispersion: 0.015

Density: 3.72

Refractive Index: 1.75

Chemical Formula:Al2BeO4


POSSIBLE JEWELRY APPLICATIONS

Cocktail Ring, Pendant, and Daily Wear

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🌍 GENERAL MATERIAL DESCRIPTION

  • Material Name:Laser Alex
  • Country of Origin : China
  • Growth Method: Czochralski

Chromium-doped beryllium aluminate (BeAl2O4:Cr3+), commonly referred to as alexandrite, is a type of solid-state laser material that has been widely utilized since its development. The laser operates on the principle of chromium ions being substituted into the crystal lattice of beryllium aluminate, a process which significantly alters the optical properties of the host crystal. These chromium ions are responsible for the laser action, absorbing light in the near-infrared through visible ranges and emitting it through stimulated emission at wavelengths primarily around 680 to 800 nanometers.<br><br>The versatility of the alexandrite laser is one of its most significant features, supporting both continuous wave and pulsed operations. This adaptability, combined with the tunable nature of its output, makes it exceptionally useful for a variety of applications. In medical settings, alexandrite lasers are prized for procedures requiring high precision, such as dermatological treatments and non-invasive surgeries. Furthermore, in the realm of scientific research, they are employed in spectroscopy and other analytical techniques due to their ability to produce coherent, tunable light across a broad spectrum. This makes them invaluable tools for both exploratory research and practical applications in diverse fields.

🏭 SPECIFIC Lot INFORMATION

This particular boule top of laser alex was notable because it was bubble free which is very uncommon in laser alex and also a lower concentration of chromium resulting in very bright stones that can be cut in larger sizes.


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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.