Optical Materials
Micro-Optical Components
Fiber Optic Components
Light Sources & Photodiodes
  Sapphire Wafer
  Patterned Sapphire Wafer
  ZnO Wafers Substrate
  Gallium Arsenide Wafer
  Gallium Nitride Wafer
  Silicon Carbide Wafer
  Lithium Niobate Wafer
  Black Lithium Niobate Wafer
  MgO:Lithium Niobate Wafer
  Lithium Tantalate Wafer
  Black Lithium Tantalate Wafer
  Langasite Wafer
  Optical Grade Silicon Wafer
  Optical Grade Ge Wafer
  Optical substrate
  Silicon on Sapphire(SOS)
  Silicon on Insulator (SOI)
  GaN on Sapphire Substrate
  Quartz Wafer


Sapphire Wafers
Lithium Niobate Wafers

   Sapphire is a material of a unique combination of physical, chemical and optical properties, which make it resistant to high temperature, thermal shock, water and sand erosion, and scratching.

    Lithium Niobate, a well-developed optical material, due to its fundamental properties, has been widely used for surfaced acoustic devices, integrated optic devices and refractive elements.

Lithium Tantalate Wafers
 Optical Grade Silicon Wafers

Lithium Tantalate is one of the most versatile materials with numerous applications including electro-optical modulators, pyroelectric detectors, optical waveguide and SAW substrates and piezoelectric transducers.

    Silicon can produced as either mono or polycrystalline form by Czochralski crystal growth method, float zone method or casting. Optical grade silicon has a very good transmission from 1.2um to 7um.

Optical substrates
Quartz Wafers

Precision Micro-Optics offers Optical substrates made of a variety of glass material depending on the applications. The applications range from fused quartz parts in optics and fiber optical communications to borosilicate glass parts in semi-conductor manufacturing.

Quartz crystal is widely used in frequency control applications due to its fundamental properties including high purity, high Q, low thermal expansion, excellent stability, unique electrical characteristic and low cost.


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