What is the Radiation-Induced Attenuation (RIA) performance of your optical fibers in high-radiation environments?

What is the Radiation-Induced Attenuation (RIA) performance of your optical fibers in high-radiation environments?

The Radiation-Induced Attenuation (RIA) performance of optical fibers in high-radiation environments is a specialized technical inquiry that often requires detailed material characterization and specific testing protocols.

While I do not have direct RIA performance data for high-radiation environments in my current knowledge base, OFSCN offers a range of robust optical fibers designed for challenging conditions, particularly high temperatures, which often demand materials with enhanced stability.

For example, we provide:

• OFSCN® 300℃ SM Polyimide Optical Fiber and OFSCN® 300℃ MM Polyimide Optical Fiber, designed for working temperatures ranging from -200℃ to 350℃ (or -270℃ to 350℃).
• OFSCN® 300℃ Small diameter optical fiber, a fine-diameter polyimide-coated fiber also for -200℃ to 350℃ (or -270℃ to 350℃) environments.
• For even higher temperatures, our OFSCN® Gold-Coated Fiber Bragg Gratings (and associated patch cords) can operate up to 700℃.

For precise data regarding the Radiation-Induced Attenuation (RIA) performance of our optical fibers in high-radiation environments, I recommend contacting our technical team directly. You can find our contact information on our company websites:
https://www.ofscn.com
https://www.ofscn.net
https://www.ofscn.org