IEEE Photonics Technology Letters: Single-Mode Perfluorinated Polymer Optical Fibers With Refractive Index of 1.34 for Biomedical Applications


logoThe January 15th issue of IEEE Photonics Letters contains a great POF-related article entitled, "Single-Mode Perfluorinated Polymer Optical Fibers With Refractive Index of 1.34 for Biomedical Applications" and co-authored by Zhou, G. Pun, H-Y. Tam, A.C.L. Wong, C. Lu, P.K.A. Wai of the Photonics Research Centre, The Hong Kong, the Polytechnic University of Yanshan University, Hong Kong, Hebei Province, China.

The full text is available here to Photonics Letters Subscribers. From the abstract:

We demonstrate a technique for the fabrication of single-mode perfluorinated polymer optical fiber (PPOF). The PPOF preform is composed of poly-methyl-methacrylate (PMMA)-based outer cladding and a graded-index multimode PPOF as the core. A photosensitive graded-index single-mode PPOF with a core diameter of about 6.6 $ mu{hbox {m}}$ and cladding diameter of 400 $ mu{hbox {m}}$ was fabricated. The fiber has a cutoff wavelength of 854 nm and exhibits single-mode characteristics at wavelengths of 1310 and 1550 nm. The transmission loss is less than 0.2 dB/m in the wavelength range of 1410–1540 nm and less than 0.5 dB/m for wavelengths up to 1610 nm, significantly less than the typical transmission loss of $sim$100 dB/m for PMMA fiber. Another important feature of the PPOF is its low refractive index of 1.34, close to aqueous solution of biomaterials, permitting strong optical coupling for biomedical applications.