High-Performance Eight-Channel Photonic Crystal Ring Resonator–Based Optical Demultiplexer for DWDM Applications
Tóm tắt
In this paper, a photonic crystal ring resonator (PCRR)-based optical demultiplexer is reported for Dense Wavelength Division Multiplexing (DWDM) applications. Diamond and silicon-dioxide are designed and simulated by an eight-channel PCRR. An average uniform spacing of 0.8 nm and 1.94 nm is obtained for the proposed demultiplexer, with silicon-dioxide and diamond, respectively. For the eight-channel PCRR structure, silicon-dioxide results in a maximum transmission efficiency of 91.48%. The quality factor is measured as 1613.336. Because of its light guiding mechanism, the ring resonator is found to be the most suitable and convenient for having dense wavelength division multiplexing amongst the different optical devices available based on photonic crystals.
Tài liệu tham khảo
Ghorbanpour H, Makouei S (2013) 2-channel all optical demultiplexer based on photonic crystal ring resonator. Front Optoelectron 6:224–227. https://doi.org/10.1007/s12200-013-0322-1
Niemi T, Frandsen LH, Hede KK, Harpøth A, Borel PI, Kristensen M (2006) Wavelength-division demultiplexing using photonic crystal waveguides. IEEE Photonics Technol Lett 18:226–228
Venkatachalam K, Kumar DS, Robinson S (2017) Investigation on 2D photonic crystal-based eight-channel wavelength-division demultiplexer. Photon Netw Commun 34:100–110. https://doi.org/10.1007/s11107-016-0675-7
Song BS, Noda S, Asano T (2003) Photonic devices based on inplane hetero photonic crystals. Science 300(5625):1537
Rakhshani MR, Mansouri-Birjandi MA (2012) J Electromagn Waves Appl 26:1700
Chen X, Qiang Z, Zhao D, Wang Y, Li H, Qiu Y, Zhou W (2011) Opt Commun 284:490
Jiang P, Ding C, Hu X, Gong Q (2007) Phys Lett A 363:332
Hu X, Liu Z, Gong Q (2008) Phys Lett A 372:333
Mansouri-Birjandi MA, Moravvej-Farshi MK, Rostami A (2008) Appl Opt 47:5041
Joannopoulas JD, Mead RD, Winn JN (1995) Photonic crystals: molding the flow of light. Princeton Univ. Press, Princeton, NJ
Yang D, Tian H, Ji Y (2012) Opt Commun 285:3752
Saidani N, Belhadj W, Abdel Malek F, Bouchriha H (2012) Opt Commun 285:3487
Bernier D, Le Roux X, Lupu A, Marris-Morini D, Vivien L, Cassan E (2008) Compact, low cross-talk CWDM demultiplexer using photonic crystal superprism. Opt Express 16:17209
Dai Y, Xiang YJ, Wen SC (2011) Prog Electromagn Res 120:17
Akosman AE, Mutlu M, Kurt H, Ozbay E (2012) Dual-frequency division de-multiplexer based on cascaded photonic crystal waveguides. Phys B Condens Matter 407:4043–4047
Venkatachalam K, Kumar DS, Robinson S (2016) Performance analysis of 2D-photonic crystal based eight channel wavelength division demultiplexer. Opt Int J Light Electron Opt 127:8819–8826
Mohammad Reza Rakhshani (2013) Mohammad Ali Mansouri-Birjandi, Design and simulation of wavelength demultiplexer based on heterostructure photonic crystals ring resonators. Phys E 50:97–101
Shree MD, Sangeetha A, Krishnan P (2019) Design and analysis of FBG sensor for explosive detection applications. Plasmonics. https://doi.org/10.1007/s11468-019-01100-x
Qiang Z, Zhou W, Soref RA (2007) Optical add-drop filters based on photonic crystal ring resonators. Opt Express 15:1823–1831
Geraili MR, Hosseini SE, Tavakoli MB et al (2019) Application of nonlinear photonic crystal ring resonators in realizing all optical OR/NOT/AND gates. Opt Quant Electron 51:228. https://doi.org/10.1007/s11082-019-1914-9
Engin E, Bonneau D, Natarajan C, Clark A, Tanner M, Hadfield R, Dorenbos S, Zwiller V, Ohira K, Suzuki N, Yoshida H, Iizuka N, Ezaki M, Brien JO, Thompson M (2013) Photon pair generation in a silicon micro-ring resonator with reverse bias enhancement. Opt Lett 21(23):27826–27834
Birjandi MAM, Rakhshani MR (2013) A new design of tunable four-port wavelength demultiplexer by photonic crystal ring resonators. Optik. https://doi.org/10.1016/j.ijleo.2013.04.128
Wu YD, Shih TT, Lee JJ (2009) New design of a triplexer using ring resonator integrated with directional coupler based on photonic crystals, in: Proc. of SPIE-OSA-IEEE Asia Communications and Photonics 763123–763126
Mehdizadeh, F, Soroosh M, Alipour-Banaei H, Farshidi E (2017) All-optical 8-channel wavelength division demultiplexer based on photonic crystal ring resonators, 10th International Conference on Electrical and Electronics Engineering (ELECO), Bursa, pp. 446–450
Naghizade S, Sattari-Esfahlan SM (2019) An optical five channel demultiplexer-based simple photonic crystal ring resonator for WDM applications Journal of Optical Communications, Volume 41, Issue 1, Pages 37–43, eISSN 2191–6322, ISSN 0173–4911 https://doi.org/10.1515/joc-2017-0129
Djavid M, Abrishamian MS (2011) Multi-channel drop filters using photonic crystal ring resonators. Optik 123:167–170
Naghizade S, Sattari-Esfahlan SM (2018) Tunable high-performance 16-channel demultiplexer on 2D photonic crystal ring resonator operating at telecom wavelengths, J Opt Commun eISSN 2191–6322, ISSN 0173–4911. https://doi.org/10.1515/joc-2017-0199
Ni X, Wang L, Zhu J, Chen X, Wei Lu (2017) Surface plasmons in a nanostructured black phosphorus flake. Opt Lett 42(13):2659–2662
Tang W, Wang L, Chen X, Liu C, Anqi Yu, Wei Lu (2016) Dynamic metamaterial based on the graphene split ring high-Q Fano-resonnator for sensing applications. Nanoscale 8(33):15196–15204
Han Li, Wang L, Xing H, Chen X (2018) Active tuning of midinfrared surface plasmon resonance and its hybridization in black phosphorus sheet array. ACS Photonics 5(9):3828–3837
Ruan Q, Li N, Yin H, Cui X, Wang J, Lin H-Q (2018) Coupling between the Mie resonances of Cu2O nanospheres and the excitons of dye aggregates. ACS Photonics 5(9):3838–3848
Senthil R, Soni A, Bir K, Senthil R, Krishnan P (2019) Circular-pattern photonic crystal fiber for different liquids with high effective area and sensitivity. Plasmonics 14(6):1783–1787
Prabu K, Dhanashree N (2019) Design and analysis of a novel optical circulator based on photonic crystal for photonic integrated circuit applications. Plasmonics 14(5):1261–1267
Stieler DP (2008) Characterization of defect cavities and channel-drop filters in the three dimensional woodpile photonic crystal. Graduate Theses and Dissertations, Iowa State University
Yee KS (1966) Numerical solution of initial boundary value problems involving Maxwell’s equations. IEEE Trans Antennas Propag 14(3):302–307
Delphi G, Olyaee S, Seifouri M, Mohebzadeh-Bahabady A (2019) Design of an add filter and a 2-channel optical demultiplexer with high-quality factor based on nano-ring resonator. J Comput Electron 2019(18):1372–1378
Mohammad Reza Rakhshani (2020) Compact eight-channel wavelength demultiplexer using modified photonic crystal ring resonators for CWDM applications. Photon Netw Commun 39:143–151. https://doi.org/10.1007/s11107-020-00879-8
Talebzadeh R, Soroosh M, Daghooghi T (2016) A 4-channel demultiplexer based on 2D photonic crystal using line defect resonant cavity. IETE J Res 62(6):866–872. https://doi.org/10.1080/03772063.2016.1217175
Alipour-Banaei H, Serajmohammadi S, Mehdizadeh F (2015) Optical wavelength demultiplexer based on photonic crystal ring resonators Photonic Netw Commun 29:146–150 (2015). https://doi.org/10.1007/s11107-014-0483-x
Vahid F, Mahmood S (2018) A new design of a 4-channel optical demultiplexer based on photonic crystal ring resonator using a modified Y-branch Optica Applicata Vol. XLVIII, No. 2. https://doi.org/10.5277/oa180203