UV Fused Silica Fiber with Excellent Light Transmission Properties

Product Features

• Spectral Range: 200 nm - 1100 nm
• Numerical Aperture: 0.22 ± 0.02
• Core Material: High hydroxyl pure silica core
• Cladding Material: Fluorine-doped silica glass
• Coating Material: Acrylate resin
• Operating Temperature: -40°C to +85°C
• Step-Index Profile
• High Damage Threshold
• Proof Test Level: 100 kpsi
• Bend Radius: Short-term > 100d; Long-term > 200d (where d is the cladding diameter of the fiber)
• Biocompatibility Compliance
• Customizable Core-to-Cladding Ratio/Coating/Buffer

UV Fused Silica Fiber is an optical fiber made from fused silica, offering excellent light transmission properties within the ultraviolet (UV) spectral range (approximately 200 nm to 400 nm). This fiber can effectively transmit light across the UV, visible, and near-infrared spectral ranges, making it widely used in fields such as optical communications, spectroscopy, biomedical applications, industrial processes, and environmental monitoring. The key characteristics of UV Fused Silica Fiber include:

• Broad Spectral Range: UV Fused Silica Fiber provides good transmission properties within the UV spectral range of 200 nm to 400 nm, and also offers a certain level of transmission efficiency in the visible and near-infrared spectral ranges.

• High Corrosion Resistance: Fused silica fiber possesses strong resistance to chemical corrosion, allowing it to be used in harsh environments, such as under high temperatures, high pressure, and exposure to corrosive gases.

• High Mechanical Strength: Compared to other types of UV fibers, fused silica fiber has higher mechanical strength and tensile strength, making it more suitable for use in environments with significant physical changes.

• High Temperature Resistance: UV Fused Silica Fiber has excellent high-temperature resistance, making it ideal for optical transmission in high-temperature conditions.

• Radiation Resistance: UV Fused Silica Fiber has a high level of radiation resistance, enabling it to operate normally in strong radiation environments.

Due to these advantages, UV Fused Silica Fiber offers significant performance benefits in various application scenarios. Depending on the specific application requirements, different types of UV Fused Silica Fiber can be customized into multimode, single-mode, or other specialized structures. When selecting UV Fused Silica Fiber, it is important to consider factors such as its spectral transmission range, mechanical strength, durability, temperature limits, and chemical stability to meet the actual application needs.

Applications

• Deep UV spectroscopic analysis
• Optical sensing
• Spectroscopic analysis
• Photodynamic therapy
• UV curing
• Aerospace