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Foundry-Fabricated Dual-DFB PIC Injection-Locked to Optical Frequency Comb for High-Purity THz Generation.

, , , , , , и . OFC, стр. 1-3. IEEE, (2019)

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Toshio Kawai

Nobuyuki Morioka

Toshio Tsuzuki

Toshio Kuroda

 

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Ultrafast all-optical switching utilizing the optical Kerr effect in polarization-maintaining single-mode fibers., и . IEEE J. Sel. Areas Commun., 6 (7): 1186-1198 (1988)Characterization and Optical Compensation of LP01 and LP11 Intra-Modal Nonlinearity in Few-Mode Fibers., , , , , , , , , и 3 other автор(ы). OFC, стр. 1-3. IEEE, (2020)Multicore Fibers for High-Capacity Submarine Transmission Systems., и . JOCN, 10 (2): A175-A184 (2018)Integrated Dual-DFB Laser for 408 GHz Carrier Generation Enabling 131 Gbit/s Wireless Transmission over 10.7 Meters., , , , , , , , , и 5 other автор(ы). OFC, стр. 1-3. IEEE, (2019)1-Pb/s (32 SDM/46 WDM/768 Gb/s) C-band dense SDM transmission over 205.6-km of single-mode heterogeneous multi-core fiber using 96-Gbaud PDM-16QAM channels., , , , , , , , , и 12 other автор(ы). OFC, стр. 1-3. IEEE, (2017)Silicon Chip-to-Chip Mode-Division Multiplexing., , , , , , и . OFC, стр. 1-3. IEEE, (2018)Foundry-Fabricated Dual-DFB PIC Injection-Locked to Optical Frequency Comb for High-Purity THz Generation., , , , , , и . OFC, стр. 1-3. IEEE, (2019)200 Gbit/s 16QAM WDM transmission over a fully integrated cladding pumped 7-core MCF system., , , , , , , , , и 5 other автор(ы). OFC, стр. 1-3. IEEE, (2017)Crosstalk Analysis of 32-Core Dense Space Division Multiplexed System for Higher Order Modulation Formats Using an Integrated Cladding-Pumped Amplifier., , , , , , , , , и 7 other автор(ы). ECOC, стр. 1-3. IEEE, (2017)50 ch × 250 Gbit/s 32-QAM transmission over a fully integrated 7-core multicore link., , , , , , , , , и 5 other автор(ы). ECOC, стр. 1-3. IEEE, (2017)