Czochralski Titanium Pink Sapphire IS a ♻️ Gem cut from
Laser Crystal Scrap
Czochralski Titanium Pink Sapphire IS grown using the
Czochralski method
Czochralski Titanium Pink Sapphire, House Of Sylas Cushion Cut, 18.05 Carats - DJEVA
Czochralski Titanium Pink Sapphire, House Of Sylas Cushion Cut, 18.05 Carats
Czochralski Titanium Pink Sapphire, House Of Sylas Cushion Cut, 18.05 Carats
Czochralski Titanium Pink Sapphire, House Of Sylas Cushion Cut, 18.05 Carats
Czochralski Titanium Pink Sapphire, House Of Sylas Cushion Cut, 18.05 Carats
Czochralski Titanium Pink Sapphire, House Of Sylas Cushion Cut, 18.05 Carats

Czochralski Titanium Pink Sapphire, House Of Sylas Cushion Cut, 18.05 Carats

SQO27

Regular price$750.00
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🩷🍑🩷🍑🩷 The praises for this amazing, eco-friendly, repurposed material are endless. This gem is destined to become a breathtaking piece of durable jewelry, one that will endure for generations! Its vibrant color is truly eye-catching, showcasing a dynamic range of pinks, peaches, and maroons that flash brilliantly.

DIMENSIONS AND SHAPE

Size: 14.58mm x 14.51mm x 10.59mm

Weight: 18.05  carats

Cut: House Of Sylas Cushion

Shape: Cushion

Clarity: Loupe Clean

Inclusions: None

Treatment:None

 

PHYSICAL PROPERTIES

MOHS hardness: 9.0

Pleochroism: Dichroic

Dispersion: 0.018

Density: 4.0

Refractive Index: 1.76

Chemical Formula:Al2O3


POSSIBLE JEWELRY APPLICATIONS

Cocktail Ring, Daily Wear, and Pendant

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🌍 GENERAL MATERIAL DESCRIPTION

  • Material Name:CZ Titanium Sapphire
  • Country of Origin : China
  • Growth Method: Czochralski

Titanium-doped sapphire, often referred to as Ti:sapphire, stands out in the realm of laser technology due to its exceptional properties. This material serves as the gain medium for tunable lasers, offering a broad range of wavelength tunability, typically from about 650 to 1100 nanometers. The versatility of Ti:sapphire lasers stems from the unique electronic structure of the titanium ion when it is doped into the sapphire (Al2O3) crystal lattice. This combination allows for efficient absorption of pump light and subsequent emission of laser light over a wide spectrum. The ability to tune the output wavelength makes Ti:sapphire lasers incredibly valuable for a multitude of applications, including spectroscopy, microscopy, and ultrafast pulse generation. Their high peak power and short pulse capabilities further enhance their utility in both scientific research and industrial applications, making them a cornerstone in the advancement of photonics.<br><br>When individuals consider "titanium" sapphire, they typically envision blue sapphire. However, the blue hue present in many natural sapphires actually stems from the presence of both titanium and minor quantities of iron. In laboratory environments, sapphire can be infused with a highly pure titanium feedstock devoid of any iron. This process yields pink sapphire crystals, with the intensity of the color varying according to the amount of titanium incorporated.<br><br>Under blue light, Ti sapphire emits a light pink fluorescence.

🏭 SPECIFIC Lot INFORMATION

This parcel was acquired as a batch likely comprising ti sapphire crystals from various manufacturers. The titanium concentration within the crystals ranged from deep to pale pink, suggesting a variety in the doping levels. Evidence suggests that the crystals were predominantly grown using the Czochralski method, although it's possible that some pieces were produced using the Kyropoulos method.


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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.