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Fabrication of tubular anti-resonant hollow core fibers: modelling, draw dynamics and process optimization, , , , , , и . Opt. Express, 27 (15): 20567--20582 (июля 2019)Up to 64QAM (30 Gbit/s) directly-modulated and directly-detected OFDM at 2 μm wavelength., , , , , , , , , и 4 other автор(ы). ECOC, стр. 1-3. IEEE, (2014)Demonstration of an 11km hollow core photonic bandgap fiber for broadband low-latency data transmission., , , , , , , , , и 4 other автор(ы). OFC, стр. 1-3. IEEE, (2015)First demonstration of a broadband 37-cell hollow core photonic bandgap fiber and its application to high capacity mode division multiplexing., , , , , , , , , и 8 other автор(ы). OFC/NFOEC, стр. 1-3. IEEE, (2013)Understanding wavelength scaling in 19-cell core hollow-core photonic bandgap fibers., , , , , , , , , и . OFC, стр. 1-3. IEEE, (2014)High dynamic range technique for discrete and distributed scattering loss measurement in microstructured optical fibres., , , , , , , , , и 2 other автор(ы). ECOC, стр. 1-3. IEEE, (2015)Antiresonant hollow core fiber with an octave spanning bandwidth for short haul data communications, , , , , , , , , и 1 other автор(ы). Journal of Lightwave Technology, 35 (3): 437--442 (2017)52.6 Gbit/s single-channel directly-modulated optical transmitter for 2-µm spectral region., , , , , , , , , и 7 other автор(ы). OFC, стр. 1-3. IEEE, (2015)Ultralow Thermal Sensitivity of Phase and Propagation Delay in Hollow-Core Fibres., , , , , , и . ECOC, стр. 1-3. IEEE, (2017)Data transmission through up to 74.8 km of hollow-core fiber with coherent and direct-detect transceivers., , , , , , , , , и 10 other автор(ы). ECOC, стр. 1-3. IEEE, (2015)