[1] |
RYF R, RANDEL S, GNAUCK A H, et al. Mode-division multiplexing over 96km of few-mode fiber using coherent 6×6 MIMO processing[J]. Journal of Lightwave Technology, 2012, 30(4):521-531. doi: 10.1109/JLT.2011.2174336 |
[2] |
BAI N. Mode-division multiplexed transmission in few-mode fibers[D]. Orlando, USA: University of Central Florida Orlando, 2013: 9-20. |
[3] |
YANG J, LIU M, ZHU M, et al. Three-core photonic crystal fiber with zero intermodal dispersion[J]. Laser Technology, 2015, 39(4):528-532(in Chinese). |
[4] |
QIAN Y, LIU M, YANG J, et al. Analysis of coupling characteristics of square five-core photonic crystal fibers[J]. Laser Technology, 2014, 38(4):455-458(in Chinese). |
[5] |
HU G J, WANG Y P, RUI L, et al. Mode demultiplexing based on CMA under the condition of differential group delay[J]. Journal of Jilin University Engineering and Technology Edition, 2015, 45(3):961-965(in Chinese). |
[6] |
GRUNER-NIELSEN L, SUN Y, NICHOLSON J W, et al. few-mode transmission fiber with low DGD, low mode coupling and low loss[J]. Journal of Lightwave Technology, 2012, 30(23):3693-3698. doi: 10.1109/JLT.2012.2227243 |
[7] |
FERREIRA F, FONSECA D, LOBATO A, et al. Reach improvement of mode division multiplexed systems using fiber splices[J]. IEEE Photonics Technology Letters, 2013, 25(12):1091-1094. doi: 10.1109/LPT.2013.2256120 |
[8] |
CAO X. Optimization of dispersion compensation in optical fiber communication systems[J]. Laser Technology, 2014, 38(1):101-104(in Chinese). |
[9] |
FAN Zh, WEN G Q, ZHOU H, et al. Research on dispersion compensation for OFDM signal fiber transmission[J]. Laser Technology, 2011, 35(1):112-116(in Chinese). |
[10] |
UDRN R G H, OKONKWO C M, SLEIFFER V, et al. Adaptive step size MIMO equalization for few-mode fiber transmission systems[J]. European Conference & Exhibition on Optical Communication, 2013, 22(1):1-3. |
[11] |
RANDEL S, WINZER P. DSP for mode division multiplexing[C]//Optoelectronics and Communications Conference Held Jointly with 2013 International Conference on Photonics in Switching (OECC/PS), 201318th.New York, USA: IEEE, 2013: 1-2. |
[12] |
YAMAN F, BAI N, ZHU B Y, et al. Long distance transmission in few-mode fibers[J]. Optics Express, 2010, 18(12):13250-13257. doi: 10.1364/OE.18.013250 |
[13] |
BAI N, LI G F. Adaptive frequency-domain equalization for mode-division multiplexed transmission[J]. IEEE Photonics Technology Letters, 2012, 24(21):1918-1921. doi: 10.1109/LPT.2012.2218802 |
[14] |
RANDEL S, WINZER P J, MONTOLIU M, et al. Complexity analysis of adaptive frequency-domain equalization for MIMO-SDM transmission[C]//Optical Communication (ECOC 2013), 39th European Conference and Exhibition on IEEE.New York, USA: IEEE, 2013: 1-3. |
[15] |
VUONG J, RAMANTANIS P, SECK A, et al. Understanding discrete linear mode coupling in few-mode fiber transmission systems[C]//Optical Communication (ECOC), 201137th European Conference and Exhibition on IEEE.New York, USA: IEEE, 2011: 1-3. |
[16] |
SHI J. Study on mode division multiplexing technology in few-mode fiber[D]. Changchun: Jilin University, 2013: 17-47(in Chinese). |
[17] |
FARUK M S, KIKUCHI K. Adaptive frequency-domain equalization in digital coherent optical receivers[J]. Optics Express, 2011, 19(13):12789-12798. doi: 10.1364/OE.19.012789 |
[18] |
BAI N, IP E, LI M J, et al. Long-distance mode-division multiplexed transmission using normalized adaptive frequency domain equalization[C]//IEEE Photonics Society Summer Topical Meeting Series.New York, USA: IEEE, 2013: 135-136. |