A non-magnetic cryogenic sapphire window is a specialized optical component designed to maintain high performance in extreme conditions, such as ultra-low temperatures and environments requiring non-magnetic materials. Sapphire windows are ideal for such applications due to their unique physical and optical properties.
Key Features of Non-Magnetic Cryogenic Sapphire Windows
- Non-Magnetic Properties
- Cryogenic Stability
- Optical Performance
- Mechanical Strength
- Chemical Resistance
Applications of Non-Magnetic Cryogenic Sapphire Windows
Quantum computing experiments where non-magnetic properties are critical. Cryogenic sensor systems in scientific research requiring optical access at low temperatures. Superconducting devices that demand minimal electromagnetic interference. High-performance spectroscopy and laser systems in cryogenic conditions. Space and satellite instruments exposed to extreme temperature fluctuations.
Key Specifications to Consider
- Optical Transmission Range: Typically 150 nm – 5000 nm (UV to mid-IR).
- Surface Flatness: λ/10 or better for minimal distortion.
- Parallelism: Precise control for clear imaging in optical setups.
- AR Coating Options: Custom coatings to enhance transmission and reduce reflection in specific wavelengths.