High-Performance Diamond Optical Window
Description
The High-Performance Diamond Optical Window is meticulously engineered for applications requiring exceptional optical quality, particularly in terahertz (THz) technology and extreme environments. Constructed from MPCVD polycrystalline diamond, this window ensures unmatched durability and optical clarity. With a maximum diameter of 25.4 mm and a versatile wavelength range from 225 nm to 100 µm, it suits high-power optical systems seamlessly.
Its thermal conductivity exceeds 2000 W/mK, facilitating efficient heat dissipation during demanding operations, while the refractive index of 2.38 at 10.6 µm enhances its performance in various optical applications. This diamond window is the ideal solution for researchers and engineers seeking reliability, performance, and precision in challenging conditions. Whether utilized in laser systems, spectroscopy, or materials analysis, it stands out as a top-tier choice for high-performance optical needs.
High-Performance Diamond Optical Window
Specifications |
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|---|---|
| Substrate Material: | Other |
| Antireflection Coating: | Uncoated |
| Diameter: | 25.4 mm |
| Surface Quality: | 40-20 scratch-dig |
| Surface Flatness: | lambda/2 |
| Thickness: | 0.5 mm |
| Wavelength Range: | 225-100000 nm |
| Thermal Conductivity: | Better than 2000 W/mK |
| Refractive Index: | 2.38 @ 10.6 µm |
Features
- Exceptional Thermal Conductivity: Greater than 2000 W/mK for efficient heat dissipation
- Wide Wavelength Range: Operates effectively from 225 nm to 100 µm, accommodating diverse applications
- High Refractive Index: 2.38 at 10.6 µm, optimizing light transmission
- Robust Material: Made from MPCVD diamond optical grade, ensuring durability and resistance to extreme conditions
- Compact Size: Available in diameters up to 25.4 mm (1 inch), making it versatile for various setups
Applications
- Terahertz (THz) Technology: Ideal for THz imaging and spectroscopy applications
- Extreme Environment Conditions: Suitable for high-temperature and high-pressure environments
- Optical Research: Used in advanced optical experiments requiring high thermal stability
- Laser Systems: Compatible with high-power laser applications due to its durability
- Material Characterization: Effective in studies involving material properties at various wavelengths
For pricing, technical or any other questions please contact the supplier
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How to order?
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Ships from:
Belgium
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Sold by:
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On FindLight:
since 2020
Frequently Asked Questions
The diamond window is primarily used in terahertz (THz) applications and extreme environments, where high optical performance and durability are crucial.
It is constructed from MPCVD (Microwave Plasma Chemical Vapor Deposition) polycrystalline diamond, ensuring exceptional optical quality and strength.
The maximum diameter of the diamond window is 25.4 mm (1 inch).
The window supports a wavelength range from 225 nm to 100 µm, making it versatile for various optical applications.
The thermal conductivity of the diamond window exceeds 2000 W/mK, facilitating effective heat dissipation in high-power applications.
The refractive index of the diamond window at 10.6 µm is 2.38, which contributes to its optical performance in specific applications.
Yes, the diamond window is designed to withstand high-power laser applications due to its high thermal conductivity and durability.
Yes, custom dimensions and specifications can be accommodated based on specific project requirements.
Diamond windows are commonly used in research, spectroscopy, laser technology, and various photonics applications where extreme conditions are present.