The Key Differences between Sapphire Windows & Plates

16 Dec.,2024

 

The Key Differences between Sapphire Windows & Plates

Sapphire windows and plates are optical components that can be utilised in a wide range of applications. Their ability to transmit light with a specific wavelength at the same time as protecting the rest of the system from the impact of the environment makes them particularly useful. Sapphire windows and plates used for optical products can be supplied in several ways including, &#;C&#; cut, random orientation, and AR coated &#; we review the key differences and benefits between them.

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Key Takeaways &#; What is the difference between Sapphire Windows?

  • Sapphire is used for its durability, extreme hardness and structural strength.
  • AR coated sapphire windows and plates which are optically AR coated on one or both sides maximise the transmission of light, are extremely transparent and are frequently used in imaging applications such as cameras and lasers.
  • Random orientation sapphire windows and sapphire plates are cut to a random optical axis, which offers all the advantages listed above in terms of durability, strength, and versatility.
  • &#;C&#;-cut sapphire windows have the added benefit of reducing any birefringence that may exist in sapphire windows cut to a random axis. This is particularly useful within camera systems, optical equipment and medical components.

The properties of sapphire windows and sapphire plates

The primary reason why sapphire is often chosen as the material for optical windows rather than other materials such as silica and quartz is that it is the hardest oxide material in existence, and one of the hardest crystals available, second only to diamond.

Hardness of this kind means that sapphire windows are highly resistant to wear and tear and scratching, no matter how potentially damaging the environment in which they are utilised is.

The strength of sapphire is also an advantage because it enables sapphire windows to be manufactured to extremely tight tolerances and thicknesses, therefore meeting the requirements of high-precision optical components across a wide range of different industries.

The properties of sapphire include the following:

  • It has a transmission range of 0.2 &#; 5.5μm. (200nm to nm), which means that sapphire windows can work with light which is UV, visible or virtually IR
  • Offers excellent levels of conductivity even at low temperatures
  • It can operate effectively at temperatures as high as 2,030 degrees Celsius
  • It can resist the impact of acids and alkalis at temperatures as high as 1,000 degrees Celsius
  • It is resistant to the effects of hydration and weathering
  • It is highly resistant to corrosion and abrasion
  • It offers high levels of electrical resistance

Due to their properties, sapphire windows are often used in difficult environments that involve factors such as high temperatures or pressure or the presence of corrosive substances. 

Different types of sapphire windows and sapphire plates

Sapphire windows have exceptional surface hardness, acid, alkali, and other chemical endurance and scratch resistance, and they are frequently employed in the UV, visible, and near infrared bandwidth ranges.

Additionally, they offer great transmission, high strength, and temperature resistance properties. Due to this, they are frequently used in optical instrumentation and equipment deployed in tough environmental situations where excessive temperatures, pressures, moisture, chemicals, or other factors must not impair optical performance because to their thermal stability features.

Here at UQG we offer sapphire windows and plates which are AR coated on one or both sides, cut to a random orientation, or cut to &#;C&#; axis.  

AR Coated on one or both sides

Sapphire windows and plates that are optically AR coated on one or both sides maximise the transmission of light. Sapphire windows and sapphire plates that have been treated in this manner are extremely transparent in a range running from UV visible to mid IR.

Standard AR coatings of this kind include UV 250nm-400nm, visible range 400nm-700nm and IR 700nm-nm, and 3-5 microns. AR coatings can also be applied to apply to a single specified wavelength and coatings of this kind &#; on one or both sides of a sapphire window or plate &#; are often utilised in imaging applications, cameras and lasers.

Sapphire Windows &#; AR Coated Stock

Random orientation

When supplied as standard, sapphire windows and sapphire plates are cut to a random optical axis, which offers all of the advantages listed above in terms of durability, strength, and versatility, while the sapphire windows can also be AR coated on one or both sides.

While Sapphire windows cut to random orientation still involves a high degree of precision and tolerance, it may not be exact enough for particular optical components, which is why some sapphire windows are cut to C axis.

Are you interested in learning more about Sapphire Optical Window? Contact us today to secure an expert consultation!

Sapphire Windows & Plates &#; Random Orientation Custom

Cut to &#;C&#; axis

In technical terms, sapphire windows or sapphire plates that have been cut to &#;C&#; axis have been cut to provide an optical axis that runs perpendicular to the plane of the sapphire substrate itself. It is also referred to as a &#;Z&#; cut or 0° plane cut.

&#;C&#;-cut sapphire windows have the added benefit of reducing any birefringence that may exist in sapphire windows cut to a random axis. Birefringence refers to the fact that a ray of light passing through an optical plate or window splits into two rays, and while it is only a slight effect in sapphire windows cut to a random orientation it is reduced further in &#;C&#; cut sapphire windows.

This is one of the things that makes sapphire windows and plates of this kind particularly useful within camera systems, optical equipment, and medical components.   

Sapphire Windows & Plates Cut to C axis Custom

The uses of sapphire windows and plates

The durability, precision, and strength of sapphire windows and plates make them the solution of choice across a range of sectors and industries, including the following:

  • Viewing ports on industrial furnaces.
  • Lenses used on sensors in the oil and gas sectors.
  • Medical components such as endoscopes, hair removal lasers, and pharmaceutical monitoring equipment.
  • Cameras and lasers which operate in high pressure environments, such as vacuum chambers or deep sea exploration.
  • Luxury spectacles may also use sapphire windows which have been AR coated to prevent glare and offer protection from UV rays for the wearer.

Find out more about Sapphire Windows

Here at UQG we provide sapphire windows and plates in a range of standard shapes and sizes as well as manufacturing custom solutions when required. In some cases, the sapphire windows or sapphire plates might have additional coatings applied to deliver necessary effects, such as reducing reflection or protecting the component from light at the infra-red or ultra-violet ends of the spectrum.

To find out more about Sapphire Windows and Plates from UQG Optics, or any of our other optical products call us on or our sales team at

Sapphire windows: properties and advantages

Sapphire windows: for use in harsh environments

Optical sapphire (corundum family), also known as synthetic sapphire, is distinguished by high-performance mechanical, thermal and optical characteristics. Sapphire, which is aluminum oxide in its purest form (no porosity or grain limit), is theoretically dense.

This birefringent material is known for its hardness (Mohs 9 &#; Knoop ) It is one of the hardest materials after diamond. Highly scratch-resistant, sapphire provides consistent optical clarity even in abrasive conditions. It also has a high chemical inertness (inert to common alkalis and acids, insoluble in water) essential for optical applications, particularly in the medical and pharmaceutical fields (maintaining the purity of surrounding substances).

Sapphire can be used up to °C. This maximum temperature rating makes it an ideal material for optical windows for high-temperature combustion chambers or furnace systems. Optical sapphire, with a density of 3.95 &#; 4.03, also has excellent resistance to pressure and thermal shock. Sapphire windows are recommended for harsh environments: high pressure, vacuum, corrosive atmospheres, high temperatures, etc.

Finally, sapphire has a good transmission from UV (200nm) to infrared (4.5 μm) without the addition of any treatment (anti-reflection, filter). Sapphire windows can be used for experiments or research requiring the use of a visible and/or infrared (near/medium) camera.

Contact us to discuss your requirements of Optical Glass Mirrors. Our experienced sales team can help you identify the options that best suit your needs.