Error-free 10-Gb/s, 11.4-km long transmission on 1.3-μm waveband photonic transport system with wavelength tunable quantum dot laser and holey fiber transmission line
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T. Kawanishi | N. Yamamoto | H. Sotobayashi | H. Takai | K. Akahane | Y. Yoshioka | T. Kawanishi | N. Yamamoto | H. Sotobayashi | Y. Omigawa | K. Akahane | H. Takai | Y. Yoshioka | Y. Omigawa
[1] Ryuichi Sugizaki,et al. Comparisons of merits on wide-band transmission systems between Using extremely improved solid SMFs with Aeff of 160μm2 and loss of 0.175dB/km and Using large-Aeff holey fibers enabling transmission over 600nm bandwidth , 2008, OFC/NFOEC 2008 - 2008 Conference on Optical Fiber Communication/National Fiber Optic Engineers Conference.
[2] Tetsuya Kawanishi,et al. Quantum Dot Optical Frequency Comb Laser with Mode-Selection Technique for 1-µm Waveband Photonic Transport System , 2010 .
[3] Tetsuya Kawanishi,et al. Broadband light source using modulated quantum dot structures with sandwiched sub‐nano separator (SSNS) technique , 2011 .
[4] Tetsuya Kawanishi,et al. Simultaneous 3 x 10 Gbps optical data transmission in 1-mum, C-, and L-wavebands over a single holey fiber using an ultra-broadband photonic transport system. , 2010, Optics express.
[5] Hong Liu,et al. Scaling Optical Interconnects in Datacenter Networks Opportunities and Challenges for WDM , 2010, 2010 18th IEEE Symposium on High Performance Interconnects.
[6] M. Notomi,et al. High-speed ultracompact buried heterostructure photonic-crystal laser with 13 fJ of energy consumed per bit transmitted , 2010 .