Loquai S, Noelscher T, Bunge CA, Kupfer T, Winkler F, Hartl E, Schmauß B (2012)
Publication Language: English
Publication Type: Journal article
Publication year: 2012
Publisher: Institute of Electrical and Electronics Engineers (IEEE)
Book Volume: 24
Pages Range: 2229-2231
Journal Issue: 24
We report 10.7-Gb/s nonreturn-to-zero (NRZ) real-time transmission over a 1-mm large-core polymethylmetacrylate polymer optical fiber (POF) using maximum likelihood sequence estimation. A maximum link length of 10 m of a standard step-index POF (SI-POF) and 35-m graded-index POF (GI-POF) was achieved with a fiber coupled power of 0 dBm, in order to comply with consumer eye-safety regulations. In order to show the robustness of this approach, the influence of fiber bends and different launching conditions were investigated. If the optical output power is increased to the link length can be increased up to 40 m of GI-POF.
APA:
Loquai, S., Noelscher, T., Bunge, C.-A., Kupfer, T., Winkler, F., Hartl, E., & Schmauß, B. (2012). 10.7-Gb/s Real-Time Transmission Over 1-mm Large-Core Polymer Optical Fiber Using Maximum Likelihood Sequence Estimation. IEEE Photonics Technology Letters, 24(24), 2229-2231. https://doi.org/10.1109/LPT.2012.2223665
MLA:
Loquai, Sven, et al. "10.7-Gb/s Real-Time Transmission Over 1-mm Large-Core Polymer Optical Fiber Using Maximum Likelihood Sequence Estimation." IEEE Photonics Technology Letters 24.24 (2012): 2229-2231.
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