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Photonic Network Communications

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06.12.2017 | Original Paper

Two-dimensional photonic crystal ring resonator-based channel drop filter for CWDM application

verfasst von: J. Divya, S. Selvendran, A. Sivanantha Raja

Erschienen in: Photonic Network Communications | Ausgabe 3/2018

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Abstract

In this paper, a channel drop filter based on two-dimensional photonic crystal ring resonator (PCRR) is proposed. The proposed structure consists of bus waveguide, dropping waveguide and a ring resonator. We have focused on improving the dropping efficiency and quality factor of the structure by applying different optimization techniques. Optimized channel drop filter using PCRR is designed, and it is extended to drop three different channels by changing the inner rods radius in each ring resonator that act as a demultiplexer. As designed structure drops three different channels such as 1524, 1544 and 1565 nm, the band gap for the structure is calculated and observed by plane-wave expansion method. The normalized transmission spectra and resonance wavelengths for different radius are obtained using two-dimensional finite-difference time-domain method. The proposed PCRR-based demultiplexer has the channel spacing of about 20 nm which fulfils the requirements of coarse wavelength-division multiplexing systems. The size of the demultiplexer is small; hence, it can be utilized for photonic integrated circuits.

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Joannopoulos, J.D., Meade, R.D., Winn, I.N.: Photonic Crystals: Molding the Flow of Light. Princeton University Press, Princeton (1995)MATH

Alipour-Banaei, H., Mehdizadeh, F., Serajmohammadi, S.: A novel 4-channel demultiplexer based on photonic crystal ring resonators. Opt.-Int. J. Light Electron Opt. 124(23), 5964–5967 (2013)CrossRefMATH

Rakhshani, M.R., Mansouri-Birjandi, M.A.: Design and simulation of four-channel wavelength demutiplexer based on photonic crystal circular ring resonators for optical communications. J. Opt. Commun. 35(1), 9–15 (2014)CrossRef

Fasihi, K., Mohammadnejad, S.: Highly efficient channel-drop filter with a coupled cavity- based wavelength-selective reflection feedback. Opt. Express 17, 8983 (2009). https://doi.org/10.1364/OE.17.008983 CrossRef

Robinson, S., Nakkeeran, R.: Investigation on parameters affecting the performance of two dimensional photonic crystal based bandpass filter. Opt. Quant. Electron. 43, 69 (2012). https://doi.org/10.1007/s11082-011-9504-5 CrossRef

Narmadhadevi, P., Shanmuga Sundar, D., Malathi, L.: Performance analysis of different micro ring resonators based on optical delay lines. IJCA 67(13), 0975–8887 (2013)CrossRef

Sharma, P., Sharan, P.: Photonic crystal based ring resonator sensor for detection of glucose concentration for biomedical applications. J. IJETAE 4(3), 2250–2459 (2014)

Ghorbanpour, H., Makouei, S.: 2-channel all optical demultiplexer based on photonic crystal ring resonator. Front. Optoelectron.https://doi.org/10.1007/s12200-013-0322-1

Taalbi, A., Bassou, G., Mahmoud, M.Y.: New design of channel drop filters based on photonic crystal ring resonators. Optik 124, 824–827 (2012)CrossRef

10.

Li, L., Liu, G.Q.: Photonic crystal ring resonator channel drop filter. Optik 124, 2966–2968 (2012)CrossRef

11.

Mahmoud, M.Y., Bassou, G., Taalbi, A., Chekroun, Z.M.: Optical channel drop filters based on photonic crystal ring resonators. Opt. Commun. 285, 368–372 (2012)CrossRef

12.

Niemi, T., Frandsen, L.H., Hede, K.K., Harpøth, A., Borel, P.I., Kristensen, M.: Wavelength-division demultiplexing using photonic crystal waveguides. IEEE Photonics Technol. Lett. 18, 226–228 (2006)CrossRef

13.

Chung, L.W., Lee, S.L.: Photonic crystal-based dual-band demultiplexers on silicon materials. Opt. Quant. Electron. 39, 677–686 (2007)CrossRef

14.

Sinha, R.K., Rawal, S.: Modeling and design of 2D photonic crystal based Y type dual band wavelength demultiplexer. Opt. Quant. Electron. 40, 603–613 (2008)CrossRef

15.

Rawal, S., Sinha, R.K.: Design, analysis and optimization of silicon-on-insulator photonic crystal dual band wavelength demultiplexer. Opt. Commun. 282, 3889–3894 (2009)CrossRef

16.

Tekeste, M.Y., Yarrison-Rice, J.M.: High efficiency photonic crystal based wavelength demultiplexer. Opt. Express 14, 7931–7942 (2006)CrossRef

17.

Rostami, A., Habibiyan, H.R., Nazari, F., Bahrami, A., Alipour, H.: A novel proposal for DWDM demultiplexer design using resonance cavity in photonic crystal structure. Int. Asia Commun. Photonics (ACP) 7630, 1–9 (2009)

18.

Rostami, A., Nazari, F., Banaei, H., Bahrami, A.: A novel proposal for DWDM demultiplexer design using modified-T photonic crystal structure. Photonic Nanostruct. Fundam. Appl. 8, 14–22 (2010)CrossRef

19.

Rostami, A., Banaei, H.A., Nazari, F., Bahrami, A.: An ultra-compact photonic crystal wavelength division demultiplexer using resonance cavities in a modified Y-branch structure. Optik 122, 1481–1485 (2011)CrossRef

20.

Alipour-Banaei, H., Mehdizadeh, F.: Significant role of photonic crystal resonant cavities in WDM and DWDM communication tunable filters. Optic 124, 2639–2644 (2012)

21.

Johnson, S.G., Joannopoulos, J.D.: Block Iterative frequency domain methods for Maxwell’s equation in a plane wave basis. Opt. Express 8(3), 173–190 (2000)CrossRef

22.

Ren, H., Jiang, C., Weisheng, H., Gao, M., Wang, J.: Photonic crystal channel drop filter with a wavelength-selective reflection micro-cavity. Opt. Express 14(6), 2446–2458 (2006)CrossRef

23.

Kim, S., Park, I., Lim, H.: Highly efficient photonic crystal-based multichannel drop filters of three-port system with reflection feedback. Opt. Express 12(22), 5518–5525 (2004)CrossRef

24.

Zimmermann, J., Kamp, M., Forchel, A., Marz, R.: Photonic crystal waveguide directional couplers as wavelength selective optical filters. Optics Commun. 230, 387–392 (2004)CrossRef

25.

Moghaddam, M.K., Attari, A.R., Mirsalehi, M.M.: Improved photonic crystal directional coupler with short length. Photonics Nanostruct. Fundam. Appl. 8, 47–53 (2010)CrossRef

26.

Kim, S.H., Ryu, H.Y., Park, H.G., Kim, G.H., Choi, Y.S., Lee, Y.H., Kim, J.S.: Two-dimensional photonic crystal hexagonal waveguide ring laser. Appl. Phys. Lett. 81(14), 2499–2501 (2002)CrossRef

27.

Qiang, Z., Zhou, W., Soref, R.A.: Optical add-drop filters based on photonic crystal ring resonators. Opt. Express 15(4), 1823–1831 (2007)CrossRef

28.

Hsiao, F-L., Lee, C.: A nano ring resonator based on 2D hexagonal lattice photonic crystals. In: International Conference on Optical MEMS and Nanophotonics, pp. 107–108 (2009)

29.

Robinson, S., Nakkeeran, R.: Two dimensional photonic crystal ring resonator based add drop filter for CWDM systems. Optik 124, 3430–3435 (2013)CrossRef

30.

Mahmoud, M.Y., Bassou, G., de Fornel, F., Taalbi, A.: Channel drop filter for CWDM systems. Opt. Commun. 306, 179–184 (2013)CrossRef

31.

Banaei, H.A., Mehdizadeh, F., Kashtiban, M.H.: A new proposal for PCRR-based channel drop filter using elliptical rings. Phys. E 56, 211–215 (2014)CrossRef

32.

Yee, K.: Numerical solution of initial boundary value problems involving Maxwell’s equation in isotropic media. IEEE Trans. Antenna Propag. 14(3), 302–307 (2003)MATH

33.

Noda, S., Chutinan, A., Imada, M.: Trapping and emission of photons by a single defect in a photonic bandgap structure. Nature 407, 608 (2000)CrossRef

34.

Sharma, R., Chhipa, M.K., Dusad, L.K.: Investigation of channel drop filter based on two dimensional photonic crystal structure. In: Proceedings of the International Conference on Recent Cognizance in Wireless Communication and Image Processing, pp. 193–199, Springer, India (2016)

35.

Alipour-Banaei, H., Jahanara, M., Mehdizadeh, F.: T shaped channel drop filter based on photonic crystal ring resonator. Optik 125(18), 5348–5351 (2014)CrossRef

36.

Tavousi, A., Mansouri-Birjandi, M.A.: Performance evaluation of photonic crystal ring resonators based optical channel add drop filters with the aid of whispering gallery modes and their Q-factor. Opt. Quant. Electron. 47(7), 1613–1625 (2015)CrossRef

37.

Qiang, Z., Zhou, W., Soref, R.A.: Optical add-drop filters based on photonic crystal ring resonators. Opt. Express 15, 1823 (2007)CrossRef

Titel: Two-dimensional photonic crystal ring resonator-based channel drop filter for CWDM application
verfasst von: J. Divya
S. Selvendran
A. Sivanantha Raja
Publikationsdatum: 06.12.2017
Verlag: Springer US
Erschienen in: Photonic Network Communications / Ausgabe 3/2018
Print ISSN: 1387-974X
Elektronische ISSN: 1572-8188
DOI: https://doi.org/10.1007/s11107-017-0749-1

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