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Intrinsic Transmission Loss of Polycarbonate Core Optical Fiber
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Intrinsic transmission loss of polycarbonate (bisphenol A-type) optical fiber (PC-POF) was experimentally determined by investigating three intrinsic loss factors: electronic transition absorption (ETA), molecular vibration absorption (MVA) and light scattering caused by thermal dielectric fluctuation. The intrinsic transmission losses for optical windows are 224 dB/km at 764 nm and approx. 166 dB/km at 650-656 nm. The intrinsic ETA loss is large in the region of short wavelength, hence it is suggested that the PC-POF yellows for white light transmission. The optical anisotropic parameter of polarizability for PC is much larger than that of polymethylmethacrylate (PMMA). The intrinsic scattering loss of PC-POF results almost entirely from the anisotropic scattering caused by the strong optical anisotropy of this polymer. Present transmission loss of PC-POF is much larger than the estimated intrinsic transmission loss because of the large excess loss arising from extrinsic loss factors. The PC-POF has the potential for low transmission loss equal to that of the PMMA-POF, if it is optically purified.
Title: Intrinsic Transmission Loss of Polycarbonate Core Optical Fiber
Description:
Intrinsic transmission loss of polycarbonate (bisphenol A-type) optical fiber (PC-POF) was experimentally determined by investigating three intrinsic loss factors: electronic transition absorption (ETA), molecular vibration absorption (MVA) and light scattering caused by thermal dielectric fluctuation.
The intrinsic transmission losses for optical windows are 224 dB/km at 764 nm and approx.
166 dB/km at 650-656 nm.
The intrinsic ETA loss is large in the region of short wavelength, hence it is suggested that the PC-POF yellows for white light transmission.
The optical anisotropic parameter of polarizability for PC is much larger than that of polymethylmethacrylate (PMMA).
The intrinsic scattering loss of PC-POF results almost entirely from the anisotropic scattering caused by the strong optical anisotropy of this polymer.
Present transmission loss of PC-POF is much larger than the estimated intrinsic transmission loss because of the large excess loss arising from extrinsic loss factors.
The PC-POF has the potential for low transmission loss equal to that of the PMMA-POF, if it is optically purified.
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