International Journal of Information and Communication Sciences

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Widely Wavelength-Tunable Solitonic Pulse Generation Using InGaAsP/InP Microring Resonators

Received: 15 June 2016    Accepted: 18 June 2016    Published: 05 July 2016
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Abstract

Multi-optical solitonic carriers suitable for use in optical communication systems and telecommunications have been generated via microring resonators (MRRs) incorporating an add/drop filter system. The generated multi solitonic carriers utilizing the MRRs were sufficiently stable for transmitting in a free space channel while experiencing very low dispersion during propagation. Moreover, the technique used which is iterative method using MRRs allowed for greater number of channels as multi-channel generation that could be utilized in a wavelength division multiplexing (WDM) system. Solitonic carriers were created, with each carrier possessing a free spectral range (FSR) of 12.45 GHz and a full width at half maximum (FWHM) of 250 MHz.

DOI 10.11648/j.ijics.20160101.12
Published in International Journal of Information and Communication Sciences (Volume 1, Issue 1, August 2016)
Page(s) 9-15
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This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Microring Resonator, Soliton, Wavelength Division Multiplexing (WDM)

References
[1] IS Amiri, S. Alavi•, M. Soltanian•, R. Penny•, A. Supa'at, N. Fisal•, and H Ahmad, "2×2 MIMO-OFDM-RoF Generation and Transmission of Double V-Band Signals Using Microring Resonator System," Optical and Quantum Electronics (2015).
[2] A. Afroozeh, I. S. Amiri, K. Chaudhary, J. Ali, and P. P. Yupapin, "Analysis of Optical Ring Resonator," Journal of Optics Research 16(2015).
[3] H Ahmad, MRK Soltanian, IS Amiri, SE Alavi, AR Othman, and ASM Supa’at, "Carriers Generated by Mode-locked Laser to Increase Serviceable Channels in Radio over Free Space Optical Systems," IEEE Photonics Journal 7(2015).
[4] Iraj Sadegh Amiri, Abdolkarim Afroozeh, and Harith Ahmad, Integrated micro-ring photonics: Principles and Applications as Slow light devices, Soliton generation and Optical transmission, CRC Press (CRC Press, United States, 2015).
[5] M Soltanian, IS Amiri, SE Alavi, and H Ahmad, "All Optical Ultra-Wideband Signal Generation and Transmission Using Mode-locked laser Incorporated With Add-drop Microring Resonator (MRR)," Laser Physics Letters 12(2015).
[6] IS Amiri, SE Alavi, N Fisal, ASM Supa'at, and H Ahmad, "All-Optical Generation of Two IEEE802.11n Signals for 2×2 MIMO-RoF via MRR System," IEEE Photonics Journal 6(2014).
[7] IS Amiri, SE Alavi, MRK Soltanian, H Ahmad, N Fisal, and ASM Supa'at, "Experimental Measurement of Fiber-Wireless (Fi-Wi) Transmission via Multi Mode Locked Solitons from a Ring Laser EDF Cavity," IEEE Photonics Journal 7(2015).
[8] Iraj Sadegh Amiri and Abdolkarim Afroozeh, Ring Resonator Systems to Perform the Optical Communication Enhancement Using Soliton, SpringerBriefs in Applied Sciences and Technology (Springer, USA, 2014).
[9] A. Afroozeh, I.S. Amiri, K. Chaudhary, J. Ali, and P. P. Yupapin, "Analysis of Optical Ring Resonator," in Advances in Laser and Optics Research (Nova Science, New York, 2015), pp. 133-146.
[10] I. Amiri, M. Soltanian, and H. Ahmad, "Application of Microring Resonators (MRRs) in Optical Soliton Communications," in Optical Communication Systems: Fundamentals, Techniques and Applications (Novascience Publisher, 2015), pp. 25 - 44.
[11] I. Amiri, S. Alavi, A. Supa'at, J. Ali, and H. Ahmad, "The Analysis of Phase, Dispersion and Group Delay in InGaAsP/InP Microring Resonator," Jurnal Teknologi (Sciences and Engineering) (2015).
[12] I. S. Amiri, J. Ali, and P. P. Yupapin, "Enhancement of FSR and Finesse Using Add/Drop Filter and PANDA Ring Resonator Systems," International Journal of Modern Physics B 26, 1250034 (2012).
[13] S. E. Alavi, I. S. Amiri, S. M. Idrus, and A. S. M. Supa'at, "Generation and Wired/Wireless Transmission of IEEE802.16m Signal Using Solitons Generated By Microring Resonator," Optical and Quantum Electronics 47, 975-984 (2014).
[14] I. S. Amiri, S. E. Alavi, Sevia M. Idrus, A. Nikoukar, and J. Ali, "IEEE 802.15.3c WPAN Standard Using Millimeter Optical Soliton Pulse Generated By a Panda Ring Resonator," IEEE Photonics Journal 5, 7901912 (2013).
[15] I. S. Amiri, R. Ahsan, A. Shahidinejad, J. Ali, and P. P. Yupapin, "Characterisation of bifurcation and chaos in silicon microring resonator," IET Communications 6, 2671-2675 (2012).
[16] I. S. Amiri and J. Ali, "Generating Highly Dark–Bright Solitons by Gaussian Beam Propagation in a PANDA Ring Resonator," Journal of Computational and Theoretical Nanoscience (JCTN) 11, 1092-1099 (2014).
[17] I. S. Amiri, S. E. Alavi, and J. Ali, "High Capacity Soliton Transmission for Indoor and Outdoor Communications Using Integrated Ring Resonators," International Journal of Communication Systems 28, 147–160 (2015).
[18] Iraj Sadegh Amiri, Sayed Esan Alavi, Sevia Mahdaliza Idrus, and Mojgan Kouhnavard, MICRORING RESONATOR FOR SECURED OPTICAL COMMUNICATION, Amazon (Amazon, USA, 2014).
[19] I. S. Amiri, S. E. Alavi, and H. Ahmad, "Analytical Treatment of the Ring Resonator Passive Systems and Bandwidth Characterization Using Directional Coupling Coefficients " Journal of Computational and Theoretical Nanoscience (JCTN) 12, 418-424 (2015).
[20] I. S. Amiri, H. Ahmad, and A. Shahidinejad, "Generating of 57-61 GHz Frequency Band Using a Panda Ring Resonator," Quantum Matter 4, 469-473 (2015).
[21] I. S. Amiri and J. Ali, "Optical Quantum Generation and Transmission of 57-61 GHz Frequency Band Using an Optical Fiber Optics " Journal of Computational and Theoretical Nanoscience (JCTN) 11, 2130-2135 (2014).
[22] I. S. Amiri, A. Afroozeh, and M. Bahadoran, "Simulation and Analysis of Multisoliton Generation Using a PANDA Ring Resonator System," Chinese Physics Letters 28, 104205 (2011).
[23] I. S. Amiri, A. Nikoukar, and J. Ali, "GHz Frequency Band Soliton Generation Using Integrated Ring Resonator for WiMAX Optical Communication," Optical and Quantum Electronics 46, 1165-1177 (2013).
[24] IS Amiri, MRK Soltanian, SE Alavi, and H. Ahmad, "Multi Wavelength Mode-lock Soliton Generation Using Fiber Laser Loop Coupled to an Add-drop Ring Resonator," Optical and Quantum Electronics 47, 2455 - 2464 (2015).
[25] S. E. Alavi, I. S. Amiri, S. M. Idrus, A. S. M. Supa'at, and J. Ali, "Cold Laser Therapy Modeling of Human Cell/Tissue by Soliton Tweezers," Optik 126, 578–582 (2015).
[26] I. S. Amiri and J. Ali, "Femtosecond Optical Quantum Memory generation Using Optical Bright Soliton," Journal of Computational and Theoretical Nanoscience (JCTN) 11, 1480-1485 (2014).
[27] I. Amiri and H. Ahmad, "MRR Systems and Soliton Communication," in Optical Soliton Communication Using Ultra-Short Pulses (Springer, USA, 2015), pp. 13-30.
[28] S. E. Alavi, I.S.Amiri, A. S. M. Supa’at, and S. M. Idrus, "Indoor Data Transmission Over Ubiquitous Infrastructure of Powerline Cables and LED Lighting," Journal of Computational and Theoretical Nanoscience (JCTN) 12, 599-604 (2015).
[29] I. S. Amiri, S. E. Alavi, M. Bahadoran, A. Afroozeh, and H. Ahmad, "Nanometer Bandwidth Soliton Generation and Experimental Transmission within Nonlinear Fiber Optics Using an Add-Drop Filter System," Journal of Computational and Theoretical Nanoscience (JCTN) 12, 221-225 (2015).
[30] I. S. Amiri, A. Nikoukar, A. Shahidinejad, and Toni Anwar, "The Proposal of High Capacity GHz Soliton Carrier Signals Applied for Wireless Commutation," Reviews in Theoretical Science 2, 320-333 (2014).
[31] Iraj S. Amiri, Soliton-Based Microring Resonators: Generation and Application in Optical Communication, Amazon (Amazon, USA, 2015).
[32] I. Amiri and H. Ahmad, "Microring Resonator (MRR) Optical Systems Applied to Enhance the Optical Soliton Communications," in Optical Communication Systems: Fundamentals, Techniques and Applications (Novascience Publisher, 2015), pp. 1 - 23.
[33] IS Amiri, MRK Soltanian, SE Alavi, AR Othman, MZA Razak, and H. Ahmad, "Microring Resonator for Transmission of Solitons via Wired/Wireless Optical Communication," Journal of Optics (2015).
[34] I. S. Amiri and A. Afroozeh, "Spatial and Temporal Soliton Pulse Generation By Transmission of Chaotic Signals Using Fiber Optic Link " in Advances in Laser and Optics Research (Nova Science Publisher, New York, 2015), pp. 119-131.
[35] IS Amiri, SE Alavi, and H. Ahmad, "Microring resonators used to gain the capacity in a high performance hybrid wavelength division multiplexing system," in Horizons in World Physics (Novascience, USA, 2015).
[36] I. S. Amiri and J. Ali, "Picosecond Soliton pulse Generation Using a PANDA System for Solar Cells Fabrication," Journal of Computational and Theoretical Nanoscience (JCTN) 11, 693-701 (2014).
[37] I. Amiri, S. Alavi, A. Supa'at, J. Ali, and H. Ahmad, "Temporal Soliton: Generation and Applications in Optical Communications," Jurnal Teknologi (Sciences and Engineering) (2015).
[38] I. S. Amiri and H. Ahmad, "Multiplex and De-multiplex of Generated Multi Optical Soliton By MRRs Using Fiber Optics Transmission Link," Quantum Matter 4, 463-468 (2015).
[39] IS Amiri, SE Alavi, and H Ahmad, "Optically generation and transmission ultra-wideband mode-locked lasers using dual-wavelength fiber laser and microring resonator system," in Horizons in World Physics (Novascience, USA, 2015).
[40] Iraj Sadegh Amiri, Sayed Ehsan Alavi, S. M. Idrus, Abdolkarim Afroozeh, and Jalil Ali, Soliton Generation by Ring Resonator for Optical Communication Application, Novascience (Novascience Publishers, New York, 2014).
[41] SE Alavi, IS Amiri, MRK Soltanian, R Penny, ASM Supa'at, and H Ahmad, "Multiwavelength generation using an add-drop microring resonator integrated with InGaAsP/InP sampled grating distributed feedback (SG-DFB)," Chinese Optics Letters 14, 021301 (2016).
[42] S. E. Alavi, I. S. Amiri, M. Khalily, A. S. M. Supa’ at, N. Fisal, H. Ahmad, and S. M. Idrus, "W-Band OFDM for Radio-over-Fibre Direct-Detection Link Enabled By Frequency Nonupling Optical Up-Conversion," IEEE Photonics Journal 6(2014).
[43] IS Amiri, SE Alavi, and H Ahmad, "Increasing Access Points in a Passive Optical Network," Optics and Photonics News (2015).
[44] I. S. Amiri, S. E. Alavi, H. Ahmad, A.S.M. Supa'at, and N. Fisal, "Numerical Computation of Solitonic Pulse Generation for Terabit/Sec Data Transmission," Optical and Quantum Electronics 47, 1765-1777 (2014).
[45] I. S. Amiri, P. Naraei, and J. Ali, "Review and Theory of Optical Soliton Generation Used to Improve the Security and High Capacity of MRR and NRR Passive Systems," Journal of Computational and Theoretical Nanoscience (JCTN) 11, 1875-1886 (2014).
[46] I. S. Amiri, A. Nikoukar, J. Ali, and P. P. Yupapin, "Ultra-Short of Pico and Femtosecond Soliton Laser Pulse Using Microring Resonator for Cancer Cells Treatment," Quantum Matter 1, 159-165 (2012).
[47] IS Amiri, SE Alavi, MRK Soltanian, N Fisal, ASM Supa'at, and H Ahmad, "Increment of Access Points in Integrated System of Wavelength Division Multiplexed Passive Optical Network Radio over Fiber," Scientific Reports 5(2015).
[48] Iraj Sadegh Amiri and Harith Ahmad, Optical Soliton Communication Using Ultra-Short Pulses, SpringerBriefs in Applied Sciences and Technology (Springer, USA, 2014).
[49] A. Afroozeh, A.Zeinalinezhad, I. S. Amiri, and S. E. Pourmand, "Stop Light Generation Using Nano Ring Resonators for Read Only Memory," Journal of Computational and Theoretical Nanoscience (JCTN) 12, 468-472 (2014).
[50] A Afroozeh, IS Amiri, Y Farhang, and A. Zeinalinezhad', Microring resonators: fabrication and applications in soliton communications, Amazon (Amazon, USA, 2015).
[51] I. Amiri and H. Ahmad, "Optical Soliton Signals Propagation in Fiber Waveguides," in Optical Soliton Communication Using Ultra-Short Pulses (Springer, USA, 2015), pp. 1-11.
[52] SE Alavi, MRK Soltanian, IS Amiri, M Khalily, ASM Supa'at, and H Ahmad, "Towards 5G: A Photonic Based Millimeter Wave Signal Generation for Applying in 5G Access Fronthaul," Scientific Reports 6(2016).
[53] MRK Soltanian, IS Amiri, WY Chong, SE Alavi, and H Ahmad, "Stable dual-wavelength coherent source with tunable wavelength spacing generated by spectral slicing a mode-locked laser using microring resonator," IEEE Photonics Journal 7(2015).
[54] MRK Soltanian, IS Amiri, SE Alavi, and H Ahmad, "Dual-Wavelength Erbium-Doped Fiber Laser to Generate Terahertz Radiation Using Photonic Crystal Fiber," Journal of Lightwave Technology (JLT) 33, 5038-5046 (2015).
[55] I. Sadegh Amiri, M. Nikmaram, A. Shahidinejad, and J. Ali, "Generation of potential wells used for quantum codes transmission via a TDMA network communication system," Security and Communication Networks 6, 1301-1309 (2013).
[56] Abdolkarim Afroozeh, Mahdi Bahadoran, Hooman Moradpour, Alireza Zeinalinezhad, and Iraj Sadegh Amiri, "Effect of Voltage on the Optical Properties of Liquid Photonic Crystal Fiber," Buletin Optik 1(2016).
[57] IS Amiri, SE Alavi, and H Ahmad, "Fiber laser setup used to generate several Mode-Locked pulses applied to soliton-based optical transmission link," in Horizons in World Physics (Novascience, USA, 2015).
[58] I. S. Amiri and J. Ali, "Single and Multi Optical Soliton Light Trapping and Switching Using Microring Resonator," Quantum Matter 2, 116-121 (2013).
[59] A. Afrozeh, A. Zeinalinezhad, S. E. Pourmand, and I. S. Amiri, "Attosecond Pulse Generation Using Nano Ring Waveguides," INTERNATIONAL JOURNAL OF CURRENT LIFE SCIENCES 4, 7573-7575 (2014).
[60] I. S. Amiri, M. H. Khanmirzaei, M. Kouhnavard, P. P. Yupapin, and J. Ali, "Quantum Entanglement using Multi Dark Soliton Correlation for Multivariable Quantum Router," in Quantum Entanglement A. M. Moran, ed. (Nova Science Publisher, New York, 2012), pp. 111-122.
[61] I. S. Amiri, M. Ebrahimi, A. H. Yazdavar, S. Gorbani, S. E. Alavi, Sevia M. Idrus, and J. Ali, "Transmission of data with orthogonal frequency division multiplexing technique for communication networks using GHz frequency band soliton carrier," IET Communications 8, 1364 – 1373 (2014).
[62] A. Afroozeh, I. S. Amiri, S. E. Pourmand, A. Zeinalinezhad, S. E. Alavi, and H. Ahmad, "Comparison of Control Light using Kramers-Kronig Method by Three Waveguides," Journal of Computational and Theoretical Nanoscience (JCTN) 12, 1864-1868 (2015).
[63] I. S. Amiri and A. Afroozeh, "Spatial and Temporal Soliton Pulse Generation By Transmission of Chaotic Signals Using Fiber Optic Link" Journal of Optics Research 16, 121-133 (2015).
[64] MRK Soltanian, H Ahmad, A Khodaie, IS Amiri, MF Ismail, and SW Harun, "A Stable Dual-wavelength Thulium-doped Fiber Laser at 1.9 µm Using Photonic Crystal Fiber," Scientific Reports (2015).
[65] I. S. Amiri and J. Ali, "Data Signal Processing Via a Manchester Coding-Decoding Method Using Chaotic Signals Generated by a PANDA Ring Resonator," Chinese Optics Letters 11, 041901(041904) (2013).
[66] I. S. Amiri, S. E. Alavi, M. R. K. Soltanian, A.S.M. Supa'at, N. Fisal, and H. Ahmad, "Generation of Femtosecond Soliton Tweezers Using a Half-Panda System for Modeling the Trapping of a Human Red Blood Cell," Journal of Computational and Theoretical Nanoscience (JCTN) 12, 10-18 (2015).
[67] I. S. Amiri, S. E. Alavi, and H. Ahmad, "Radio Frequency signal generation and wireless transmission using PANDA and Add/drop systems," Journal of Computational and Theoretical Nanoscience (JCTN) 12, 1770-1774(1775) (2015).
[68] S. E. Alavi, I. S. Amiri, H. Ahmad, N. Fisal, and ASM. Supa’at, "Optical Amplification of Tweezers and Bright Soliton Using an Interferometer Ring Resonator System," Journal of Computational and Theoretical Nanoscience (JCTN) 12, 624-629 (2015).
[69] I. S. Amiri and J. Ali, "Simulation of the Single Ring Resonator Based on the Z-transform Method Theory," Quantum Matter 3, 519-522 (2014).
[70] SE Alavi, IS Amiri, H Ahmad, ASM Supa'at, and N Fisal, "Generation and Transmission of 3× 3 W-Band MIMO-OFDM-RoF Signals Using Micro-Ring Resonators," Applied Optics 53, 8049-8054 (2014).
[71] I. S. Amiri, S. Soltanmohammadi, A. Shahidinejad, and j. Ali, "Optical quantum transmitter with finesse of 30 at 800-nm central wavelength using microring resonators," Optical and Quantum Electronics 45, 1095-1105 (2013).
[72] H Ahmad, MRK Soltanian, Leila Narimani, IS Amiri, A Khodaei, and SW Harun, "Tunable S-Band Q-Switched Fiber Laser using Bi2Se3 as the saturable absorber," IEEE Photonics Journal 7(2015).
[73] IS Amiri, MZ Zulkifli, and H Ahmad, "Soliton comb generation using add-drop ring resonators," International Research Journal of Telecommunications and Information Technology 1, 002-008 (2014).
[74] I. Amiri and H. Ahmad, "Ultra-Short Solitonic Pulses Used in Optical communication," in Optical Soliton Communication Using Ultra-Short Pulses (Springer, USA, 2015), pp. 47-51.
[75] P. P. Yupapin, M. A. Jalil, I. S. Amiri, I. Naim, and J. Ali, "New Communication Bands Generated by Using a Soliton Pulse within a Resonator System," Circuits and Systems 1, 71-75 (2010).
[76] I. Amiri and H. Ahmad, "Solitonic Signals Generation and Transmission Using MRR," in Optical Soliton Communication Using Ultra-Short Pulses (Springer, USA, 2015), pp. 31-46.
[77] I. S. Amiri, S. E. Alavi, S. M. Idrus, A. S. M. Supa'at, J. Ali, and P. P. Yupapin, "W-Band OFDM transmission for radio-over-fiber link using solitonic millimeter wave generated by MRR," Quantum Electronics, IEEE Journal of 50, 622-628 (2014).
[78] S. E. Alavi, I. S. Amiri, S. M. Idrus, ASM Supa’at, J. Ali, and P. P. Yupapin, "All Optical OFDM Generation for IEEE802.11a Based on Soliton Carriers Using MicroRing Resonators " IEEE Photonics Journal 6(2014).
[79] MRK Soltanian, IS Amiri, SD Emami, and H Ahmad, "Yagi-Uda nanoantenna in the near-field optical domain," in Optical Communication Systems: Fundamentals, Techniques and Applications (Novascience Publisher, New York, 2015), pp. 91 - 96.
Author Information
  • Photonics Research Centre, University of Malaya (UM), Kuala Lumpur, Malaysia

  • Computer Techniques Engineering Department, Al-Mustaqbal University College, Babylon, Iraq

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  • APA Style

    I. S. Amiri, Hamza M. R. Al-Khafaji. (2016). Widely Wavelength-Tunable Solitonic Pulse Generation Using InGaAsP/InP Microring Resonators. International Journal of Information and Communication Sciences, 1(1), 9-15. https://doi.org/10.11648/j.ijics.20160101.12

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    ACS Style

    I. S. Amiri; Hamza M. R. Al-Khafaji. Widely Wavelength-Tunable Solitonic Pulse Generation Using InGaAsP/InP Microring Resonators. Int. J. Inf. Commun. Sci. 2016, 1(1), 9-15. doi: 10.11648/j.ijics.20160101.12

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    AMA Style

    I. S. Amiri, Hamza M. R. Al-Khafaji. Widely Wavelength-Tunable Solitonic Pulse Generation Using InGaAsP/InP Microring Resonators. Int J Inf Commun Sci. 2016;1(1):9-15. doi: 10.11648/j.ijics.20160101.12

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  • @article{10.11648/j.ijics.20160101.12,
      author = {I. S. Amiri and Hamza M. R. Al-Khafaji},
      title = {Widely Wavelength-Tunable Solitonic Pulse Generation Using InGaAsP/InP Microring Resonators},
      journal = {International Journal of Information and Communication Sciences},
      volume = {1},
      number = {1},
      pages = {9-15},
      doi = {10.11648/j.ijics.20160101.12},
      url = {https://doi.org/10.11648/j.ijics.20160101.12},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ijics.20160101.12},
      abstract = {Multi-optical solitonic carriers suitable for use in optical communication systems and telecommunications have been generated via microring resonators (MRRs) incorporating an add/drop filter system. The generated multi solitonic carriers utilizing the MRRs were sufficiently stable for transmitting in a free space channel while experiencing very low dispersion during propagation. Moreover, the technique used which is iterative method using MRRs allowed for greater number of channels as multi-channel generation that could be utilized in a wavelength division multiplexing (WDM) system. Solitonic carriers were created, with each carrier possessing a free spectral range (FSR) of 12.45 GHz and a full width at half maximum (FWHM) of 250 MHz.},
     year = {2016}
    }
    

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    T1  - Widely Wavelength-Tunable Solitonic Pulse Generation Using InGaAsP/InP Microring Resonators
    AU  - I. S. Amiri
    AU  - Hamza M. R. Al-Khafaji
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    T2  - International Journal of Information and Communication Sciences
    JF  - International Journal of Information and Communication Sciences
    JO  - International Journal of Information and Communication Sciences
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    UR  - https://doi.org/10.11648/j.ijics.20160101.12
    AB  - Multi-optical solitonic carriers suitable for use in optical communication systems and telecommunications have been generated via microring resonators (MRRs) incorporating an add/drop filter system. The generated multi solitonic carriers utilizing the MRRs were sufficiently stable for transmitting in a free space channel while experiencing very low dispersion during propagation. Moreover, the technique used which is iterative method using MRRs allowed for greater number of channels as multi-channel generation that could be utilized in a wavelength division multiplexing (WDM) system. Solitonic carriers were created, with each carrier possessing a free spectral range (FSR) of 12.45 GHz and a full width at half maximum (FWHM) of 250 MHz.
    VL  - 1
    IS  - 1
    ER  - 

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