Simulation of a long-haul fiber optic link with a two-mode optical fiber

Автор: Burdin Vladimir Alexandrovich, Bourdine Anton Vladimirovich

Журнал: Компьютерная оптика @computer-optics

Рубрика: Opto-it

Статья в выпуске: 4 т.41, 2017 года.

Бесплатный доступ

Modern telecommunication networks approach the capacity crunch, which is associated with the so-called nonlinear Shannon limit. So, the passage to fiber optic links with few-mode optical fibers is considered as an alternative solution of the described problem concerned with high nonlinearity of conventional commercial single-mode optical fibers. Presently, various designs of few-mode optical fibers have been known, with the recently published works presenting experimental results demonstrating their potentialities for long-haul fiber optic links. A lot of models of long-haul fiber optic links with few-mode optical fibers have been developed based on which features of a few-mode optical fiber transport network were numerically simulated. This work presents the results of simulation of a 6000-km long-haul fiber optic link with a two-mode optical fiber and 100-km-per-span Erbium doped fiber optic amplifiers system under 100 Gbps DP-DQPSK data transmission. We studied the use of particular linearly polarized modes and optical vortices for signal transmission. The computation results were compared with the simulation of the same fiber optic link with a single-mode optical fiber under the identical conditions.

Еще

System of coupled nonlinear schrödinger equations, few-mode optical fiber, fiber optic link, split step fourier method, gaussian approximation, linearly polarized modes, optical vortices

Короткий адрес: https://sciup.org/140228632

IDR: 140228632 | DOI: 10.18287/2412-6179-2017-41-4-489-493

Список литературы Simulation of a long-haul fiber optic link with a two-mode optical fiber

Essiambre, R.-J. Capacity trends and limits of optical communication networks/Essiambre R-J, Tkach RW.//Proceedings of the IEEE. -2012. -Vol. 100, Issue 5. -P. 1035-1055. - DOI: 10.1109/JLT.2009.2039464
Ellis, A.D. The nonlinear Shannon limit and the need for new fibres/A.D. Ellis//Proceedings of SPIE. -2012. -Vol. 8434. -84340H. - DOI: 10.1117/12.928093
Richardson, D.J. Space-division multiplexing in optical fibres/D.J. Richardson, J.M. Fini, L.E. Nelson//Nature Photonics. -2013. -Vol. 7. -P. 354-362. - DOI: 10.1038/nphoton.2013.94
Andreev, V.A. Few-mode transmission regime in optical fibers: application on high-speed fiber optic lines/V.A. Andreev, V.A. Burdin, A.V. Bourdine//Electrosvyaz. -2013. -Vol. 12. -P. 27-30. -.
Ferreira, F. Nonlinear semi-analytical model for simulation of few-mode fiber transmission/F. Ferreira, S. Jansen, P. Monteiro, H. Silva//IEEE Photonics Technology Letters. -2012. -Vol. 24, Issue 4. -P. 240-242. - DOI: 10.1109/LPT.2011.2177250
Li, A. Space-division multiplexed high-speed superchannel transmission over few-mode fiber/A. Li, X. Chen, A.A. Amin, J. Ye, W. Shieh//Journal of Lightwave Technology. -2012. -Vol. 30, Issue 24. -P. 3953-3964. - DOI: 10.1109/JLT.2012.2206797
Grüner-Nielsen, L. Few mode transmission fiber with low DGD, low mode coupling, and low loss/L. Grüner-Nielsen, Y. Sun, J.W. Nicholson, D. Jakobsen, K.G. Jespersen, R. Lingle, B. Pálsdóttir//Journal of Lightwave Technology. -2012. -Vol. 30, Issue 23. -P. 3693-3698. - DOI: 10.1109/JLT.2012.2227243
Wang, J. Advances in communications using optical vortices/J. Wang//Photonics Research. -2016. -Vol. 4, Issue 5. -P. B14-B28. - DOI: 10.1364/PRJ.4.000B14
Yaman, F. Long distance transmission in few-mode fibers/F. Yaman, N. Bai, B. Zhu, T. Wang, G. Li//Optics Express. -2010. -Vol. 18, Issue 12. -P. 13250-13257. - DOI: 10.1364/OE.18.013250
Yaman, F. 10 x 112Gb/s PDM-QPSK transmission over 5032 km in few-mode fibers/F. Yaman, N. Bai, Y.K. Huang, M.F. Huang, B. Zhu, T. Wang, G. Li//Optics Express. -2010. -Vol. 18, Issue 20. -P. 21342-21349. - DOI: 10.1364/OE.18.021342
Chen, X. Reception of mode-division multiplexed superchannel via few-mode compatible optical add/drop multiplexer/X. Chen, A. Li, J. Ye, A.A. Amin, W. Shieh//Optics Express. -2012. -Vol. 20, Issue 13. -P. 14302-14307. - DOI: 10.1364/OE.20.014302
Koebele, C. Two mode transmission at 2x100Gb/s, over 40km-long prototype few-mode fiber, using LCOS-based programmable mode multiplexer and demultiplexer/C. Koebele, M. Salsi, D. Sperti, P. Tran, P. Brindel, H. Mardoyan, S. Bigo, A. Boutin, F. Verluise, P. Sillard, M. Astruc, L. Provost, F. Cerou, G. Charlet//Optics Express. -2011. -Vol. 19, Issue 17. -P. 16593-16600. - DOI: 10.1364/OE.19.016593
Volyar. A.V. Vortex nature of optical fiber modes: I. Structure of the natural modes/A.V. Volyar, T.A. Fadeeva//Technical Physics Letters. -1996. -Vol. 22, Issue 4. -P. 330-332.
Khonina, S.N. Phase diffractive filter to analyze an output step-index fiber beam/S.N. Khonina, R.V. Skidanov, V.V. Kotlyar, K. Jefimovs, J. Turunen//Optical Memory and Neural Networks. -2003. -Vol. 12, Issue 4. -P. 317-324.
Black, R.J. Optical waveguide modes/R.J. Black, L. Gagnon. -New York: The McGraw-Hill Companies, 2010. -208 p. -ISBN: 978-0071622967.
Khonina, S.N. Optical vortices in a fiber: mode division multiplexing and multimode self-imaging/S.N. Khonina, N.L. Kazanskiy, V.A. Soifer//In book: Recent progress in optical fiber research/Ed. by M. Yasin, S.W. Harun, H. Arof. -Chap 15. -Croatia: INTECH publisher, 2012. -ISBN: 978-953-307-823-6.
Lyubopytov, V.S. Mathematical model of completely optical system for detection of mode propagation parameters in an optical fiber with few-mode operation for adaptive compensation of mode coupling/V.S. Lyubopytov, A.Z. Tlyavlin, A.K. Sultanov, V.K. Bagmanov, S.N. Khonina, S.V. Karpeev, N.L. Kazanskiy//Computer Optics. -2013. -Vol. 37(3). -P. 352-359. -.
Wang, J. Terabit free-space data transmission employing orbital angular momentum multiplexing/J. Wang, J.-Y. Yang, I.M. Fazal, N. Ahmed, Y. Yan, H. Huang, Y. Ren, Y. Yue, S. Dolinar, M. Tur, A.E. Willner//Nature Photonics. -2012. -Vol. 6. -P. 488-496. - DOI: 10.1038/nphoton.2012.138
Willner, A.E. Optical communications using orbital angular momentum beams/A.E. Willner, H. Huang, Y. Yan, Y. Ren, N. Ahmed, G. Xie, C. Bao, L. Li, Y. Cao, Z. Zhao, J. Wang, M.P.J. Lavery, M. Tur, S. Ramachandran, A.F. Molisch, N. Ashrafi, S. Ashrafi//Advances in Optics and Photonics. -2015. -Vol. 7, Issue 1. -P. 66-106. - DOI: 10.1364/AOP.7.000066
Agrawal, G.P. Nonlinear fiber optics/G.P. Agrawal. -3rd ed. -New York: Academic Press, 2001. -640 p. -ISBN: 978-0-12-045143-3.
Agrawal, G.P. Applications of nonlinear fiber optics/G.P. Agrawal. -2nd ed. -New York: Academic Press, 2008. -528 p. -ISBN: 978-0-12-374302-2.
Sisakyan, I.N. Nonlinear dynamics of picosecond pulses in fiber-optic waveguides (review)/I.N. Sisakyan, A.V. Shvarcburg//Soviet Journal of Quantum Electronics. -1984. -Vol. 14, Issue 9. -P. 1146-1157. - DOI: 10.1070/QE1984v014n09ABEH006100
Shirokov, S.M. Approximate parametrical models of dynamics of self-influence of impulses in nonlinear optical environments with mode dispersion/S.M. Shirokov//Computer Optics. -1995. -Vol. 14-15(2). -P. 117-124. -.
Mumtaz, S. Nonlinear propagation in multimode and Multicore fibers: generalization of the Manakov equations/S. Mumtaz, R.-J. Essiambre, G.P. Agrawal//Journal of Lightwave Technology. -2013. -Vol. 31, Issue 3. -P. 398-406. - DOI: 10.1109/JLT.2012.2231401
Burdin, V.A. Modeling and simulation of a few-mode long-haul fiber optic transmission link/V.A. Burdin, A.V. Bourdine//Proceedings of SPIE. -2015. -Vol. 9533. -953307. - DOI: 10.1117/12.2181127
Zhang, Q. Global simulation accuracy control in the split-step fourier simulation of vector optical fiber communication/Q. Zhang, S. Karri, M. Khaliq, L. Xing, M.I. Hayee//Journal of Communications. -2015. -Vol. 10, Issue 1. -P. 1-8. - DOI: 10.12720/jcm.10.1.1-8
Binh, L.N. Optical fiber communications systems. Theory and practice with MATLAB and Simulink models/L.N. Binh. -Boca Raton, FL: CRC Press/Taylor&Francis, 2010. -534 p. -ISBN: 978-1439806203.
Gloge, D. Weakly guided fibers/D. Gloge//Applisd Optics. -1971. -Vol. 10, Issue 10. -P. 2252-2258. - DOI: 10.1364/AO.10.002252
Snyder, A.W. Optical waveguide theory/A.W. Snyder, J.D. Love. -London, New York: Chapman and Hall, 1983. -738 p. -ISBN: 978-0-412-24250-2.
Bourdine, A.V. Solution for arbitrary order guided mode propagating over optical circle fiber based on Gaussian approximation/A.V. Bourdine, V.A. Burdin//Proceedings of SPIE. -2012. -Vol. 8410. -841009. - DOI: 10.1117/12.923235
Grin, L.E. Laser beams with a helical wavefront structure/L.E. Grin, P.V. Korolenko, N.N. Fedotov//Optics and Spectroscopy. -1992. -Vol. 73, Issue 5. -P. 604-605.
Shokin, Y.I. Aspects of information transmission and processing in ultra high-rate fiber optic communication lines/Y.I. Shokin, A.S. Skidin, M.P. Fedoruk//Informatsionno-Upravliaiushchie Sistemy. -2013. -Vol. 2. -P. 54-59. -.

Еще

Статья научная