Keeping your deposition temperature as low as possible prevents tube shrinkage AND prevents water from moving toward the core, which will cause absorptions in the final fiber measurements.Adding dopants such as phosphorous and fluorine reduce the required deposition temperature.
Additional resources from the FOC team include:
- Category ResourceFOC Fiber Design and Manufacturing Page
- View the Glossary,Acronyms,Military Specifications for Connectors
- Q&A Resource: email technical questions toAskFOC@www.spnnc.com
Have questions about this FOC Tip?
Contact FOC with questions at: (800) 473-4237 / 508-992-6464 or email:FiberOpticCenter@www.spnnc.comand we will respond ASAP.
Additional articles from our preform fabrication consultant include:
- MCVD Tips: 14 ideas to enhance preform strength, yield, and reproducibility
- MCVD Options: These add-on features can enhance your optical fiber preform strength, yield, and reproducibility
- Controlling the optical fiber preform deposition process
- Preparing to Manufacture an Optical Fiber Preform
- Critical Design Goals to Manufacture Optical Fiber Preforms
- Comparing the 2 types of MCVD gas delivery systems to manufacture optical preforms: Stainless steel and Teflon/glass
- Attention specialty fiber manufacturers: Take advantage of FOC's preform fabrication consulting to troubleshoot your system and achieve reproducibility and high yields