Sapphire Optical Fiber Dia 25-500um Fiber Orientation C-axis Transmittance >80%

Product Specification

sapphire optical fiber Dia 25-500um Fiber orientation C-axis Transmittance >80% High Radiation Resistance

Abstract

Sapphire optical fibers represent the cutting edge in optical transmission technology, combining unparalleled durability, precision, and radiation resistance. With a diameter range of 25–500 μm, these fibers are oriented along the C-axis, ensuring superior optical properties and mechanical stability. Featuring transmittance exceeding 80% across a broad spectrum and high radiation resistance, they excel in extreme environments where conventional optical fibers fail. Sapphire fibers find applications in aerospace, nuclear energy, medical devices, and advanced sensing systems, demonstrating exceptional performance in both high-temperature and high-radiation conditions.

Properties

1. Material Composition

• Purity: Comprised of highly pure aluminum oxide (Al₂O₃), sapphire fibers are single-crystal structures devoid of grain boundaries, enhancing mechanical and optical consistency.
• Orientation: C-axis orientation maximizes optical transmission efficiency and mechanical robustness.

2. Physical Dimensions

• Diameter Range: Available in customizable diameters between 25 μm and 500 μm, meeting diverse requirements for precision optical systems.
• Length Options: Tailored to user needs, providing flexibility for specific applications.

3. Optical Performance

• High Transmittance: Over 80% transmission efficiency in the 200 nm to 5 μm wavelength range, covering ultraviolet (UV) to mid-infrared (IR) spectra. This wide transparency range is ideal for applications requiring multi-wavelength functionality.
• Low Optical Loss: Minimal attenuation ensures efficient signal transmission over extended distances.

4. Thermal Stability

• Operating Temperatures: Sapphire fibers can withstand extreme temperatures up to 2,000°C, maintaining optical integrity even under thermal stress.
• Thermal Conductivity: Excellent heat dissipation properties reduce thermal degradation, enhancing longevity.

5. Radiation Resistance

• High Radiation Tolerance: Sapphire fibers retain their optical and structural properties even in environments with high levels of ionizing radiation, such as nuclear reactors and space missions.

6. Mechanical Properties

• High Tensile Strength: Sapphire’s inherent strength enables resistance to mechanical stresses, including tension, vibration, and shock.
• Scratch Resistance: Second only to diamond, sapphire fibers maintain optical clarity and structural integrity under abrasive conditions.

7. Chemical Stability

• Corrosion Resistance: Chemically inert to most acids, alkalis, and solvents, making them ideal for corrosive environments.
• Biocompatibility: Safe for use in medical applications, including invasive procedures and diagnostic tools.

Applications

1. Aerospace and Defense

• Radiation-Resistant Communication: Sapphire fibers are integral to data transmission systems in space exploration, where high radiation and extreme temperatures are prevalent.
• Infrared Sensing: Their broad spectral range and mechanical resilience make them suitable for thermal imaging systems in military and aerospace applications.
• Navigation and Guidance Systems: High durability and precision enable use in gyroscopes and other navigation aids in high-stress environments.

2. Nuclear and High-Radiation Environments

• Reactor Monitoring: Sapphire fibers’ resistance to radiation and heat ensures accurate and long-term monitoring of nuclear reactors.
• Radiation Dosimetry: These fibers are used in spectroscopic tools to measure radiation exposure with high precision.
• Waste Management: Sapphire fibers facilitate remote sensing and diagnostics in radioactive waste handling.

3. Medical Technologies

• Laser Delivery Systems: Their high transmittance and precision enable applications in laser surgeries and advanced diagnostic equipment.
• Endoscopy: Sapphire fibers are used in endoscopic devices for UV or IR imaging, offering enhanced imaging capabilities.
• Tissue Analysis: Their biocompatibility and optical clarity support applications in spectroscopy for tissue diagnostics.

4. Industrial Applications

• High-Temperature Sensing: These fibers are used in industrial furnaces, turbines, and engines for real-time temperature monitoring.
• Corrosive Process Monitoring: With chemical inertness, sapphire fibers perform reliably in harsh chemical processing environments.
• Laser Material Processing: Sapphire fibers transmit high-power laser beams for cutting, welding, and drilling with precision.

5. Scientific Research

• Spectroscopy and Photonics: Sapphire fibers’ broad transparency range and low optical loss make them a preferred choice for spectroscopy in research settings.
• Quantum Technologies: High refractive index and mechanical stability support advancements in quantum communication and photonics experiments.

Advantages Over Conventional Optical Fibers

1. High Temperature and Radiation Resistance

Unlike silica fibers, which degrade in extreme heat and radiation, sapphire fibers maintain performance in challenging conditions.

2. Broad Spectral Range

With transparency from UV to mid-IR, sapphire fibers outperform conventional fibers in multi-wavelength applications.

3. Superior Durability

The mechanical and chemical properties of sapphire ensure long-term reliability, even in abrasive or corrosive environments.

4. C-Axis Orientation

This specific fiber orientation minimizes birefringence, ensuring consistent optical performance across a range of wavelengths and conditions.

Packaging and Customization

Sapphire optical fibers can be customized to suit specific operational requirements:

• Diameter Options: Available in a range from 25 μm to 500 μm for diverse applications.
• Polished Ends: Custom end finishes, including angled or anti-reflective coatings, to enhance coupling efficiency.
• Protective Sheathing: Additional cladding options for added protection in mechanical or chemical environments.
• Custom Lengths: Available in various lengths to match specific project needs.

Conclusion

Sapphire optical fibers, with their unparalleled properties, are an essential component for cutting-edge technologies in aerospace, nuclear, medical, industrial, and research domains. Their high transmittance, radiation resistance, and durability make them the fiber of choice for applications in extreme conditions. Designed with a diameter range of 25–500 μm and C-axis orientation, these fibers offer flexibility, precision, and reliability unmatched by traditional optical materials.

For more details, technical specifications, or customization inquiries, please contact our technical support team.