Novel Design for Photonic Crystal Ring Resonators Based Optical Channel Drop Filter
الموضوعات : فصلنامه نانوساختارهای اپتوالکترونیکیZOHREH RASHKI 1 , Seyed Javad Seyed Mahdavi chabok 2
1 - Department of Electrical Engineering, Mashhad Branch, Islamic Azad University,
Mashhad, Iran.
2 - Department of Electrical Engineering, Mashhad Branch, Islamic Azad University,
Mashhad, Iran.
الکلمات المفتاحية: Photonic Crystal, Ring Resonators, Square Lattice, Photonic Integrated Circuits, Optical Communication,
ملخص المقالة :
Photonic crystal ring resonators (PCRRs) are traditional structures for
designing optical channel drop filters. In this paper, Photonic crystal channel drop filter
(CDFs) with a new configuration of ring resonator is presented. The structure is made of
a square lattice of silicon rods with the refractive index nsi=3. 4 which are perforated in
air with refractive index nair=1. Calculations of band structure and propagation of
electromagnetic field through devices are done by plane wave expansion (PWE) and
finite difference time domain (FDTD) methods, respectively. The simulation shows,
100% dropping efficiency and suitable quality factor at 1592. 6 nm wavelength achieved
for this filter. Also, in this paper, we investigate parameters which have an effect on
resonant wavelength and transmission spectrum in this CDF, such as refractive index of
inner rods and whole of dielectric rods of the structure. The proposed structure is small
which is more suitable for used in the future photonic integrated circuits, wavelength
division multiplexing (WDM) systems and optical communication network
applications. Also, we suggested a heterostructure wavelength demultiplexer is
composed of four ring resonators. These ring resonators are located in four different
regions (heterostructure) which each region has specific dielectric constant.
[1] E. Ozbay, K. Guven, E. Cubukcu, K. Aydin, Alici Negative refraction and subwavelength focusing using photonic crystals. Modern Physics Letters B, 18(25) (2004, October, )1275–1291.
Available: https://doi. org/10. 1142/S0217984904007803.
[2] Joannopoulos J. D, Johnson S. G, Winn J N, Meade R D. Photonic Crystals: Molding the Flow of Light. Princeton: Princeton University Press, 2011.
[3] E. Najafi Tomraei, H. Rasooli Saghai, All-optical photonic crystal filters in the form of series hexagonal rings for application in advanced optical communication systems, Optik, 136 (2017, May) 84–88.
Available: https://doi. org/10. 1016/j. ijleo. 2017. 02. 011
[4] M. Djavid, M. S. Abrishamian, Multi-channeldrop filters using photonic crystal ring resonators, Optik, 123 (2012, January) 167–170.
Available: https://doi. org/10. 1016/j. ijleo. 2011. 04. 001
[5] H. Alipour Banaeia, S. Seraj mohammadib, F. Mehdizadehc, All optical NOR and NAND gate based on nonlinear photonic crystal ring resonators, Optik, 125 (2014, October)5701–5704.
Available https://doi. org/10. 1016/j. ijleo. 2014. 06. 013:
[6] E. Yablonovitch. Inhibited spontaneous emission in solid-state physics and electronics. Phys. Rev. Lett. 58, (1987)2059–2062
[7] H. Alipour-Banaei, F. Mehdizadeh, M. Hassangholizadeh-Kashtiban, T-shaped channel drop filter based on photonic crystal ring resonator, Optik, 125 (2014, September) 4718–4721.
Available: https://doi. org/10. 1016/j. ijleo. 2014. 06. 056
[8] H. Alipour-Banaei, F. Mehdizadeh, S. Serajmohammadi. A novel 4- channel demultiplexer based on photonic crystal ring resonators. Optik-International Journal for Light and Electron Optics, 124(23)(2013, December)5964–5967.
Available: https://doi. org/10. 1016/j. ijleo. 2013. 04. 117
[9] H. Alipour-Banaei, F. Mehdizadeh, Significant role of photonic crystal resonant cavities in WDM and DWDM communication tunable filters. Optik, 124(2013, September) 2639–2644.
Available: https://doi. org/10. 1016/j. ijleo. 2012. 07. 029
[10] A. Rostami, H. Alipour Banei, F. Nazari, A. Bahrami, An ultra-compact photonic crystal wavelength division demultiplexer using resonance cavities in a modified Y-branch structure. Optik 122(2011, August) 1481–1485.
74 * Journal of Optoelectronical Nanostructures Summer 2018 / Vol. 3, No. 3
Available: https://doi. org/10. 1016/j. ijleo. 2010. 05. 036
[11] S. Robinson, R. Nakkeeran, Two dimensional photonic crystal ring resonator based add-drop filter using hexagonal rods for CWDM systems. Optik, 124(2013, September) 3430–3435.
Available: https://doi. org/10. 1016/j. ijleo. 2012. 10. 038
[12] M. Y. Mahmoud, G. Bassou, A. Taalbi, Z. M. Chekroun, Optical channel drop filter based on photonic crystal ring resonators. Opt. Commun. 285(2013, February) 368–372.
Available: https://doi. org/10. 1016/j. optcom. 2011. 09. 068
[13] M. Y. Mahmoud, G. Bassou, A. Taalbi, A new optical add-drop filter based on photonic crystal ring resonators. Optik, 124(2013, September) 2864–2867.
Available: https://doi. org/10. 1016/j. ijleo. 2012. 08. 072
[14] M. Y. Mahmoud, G. Bassou, F. Metehri, Channel drop filter using photonic crystal ring resonators for CWDM communication systems. Optik, 125(2014, September) 4718–4721.
Available: https://doi. org/10. 1016/j. ijleo. 2014. 04. 084
[15] V. Fallahi1, M. Seifouri, Design of an Improved Optical Filter Based on Dual-Curved PCRR for WDM Systems, Journal of Optoelectronical Nanostructures, Vol. 2, No. 3 ( 2017, )45-56.
Available: http://jopn. miau. ac. ir/article_2573. html
[16] H. Alipour-Banaei, F. Mehdizadeh, M. Hassangholizadeh-Kashtiban, A new proposal for PCRR-based channel drop filter using elliptical rings. Phys. E 56 (2014, February)211–215.
Available: https://doi. org/10. 1016/j. physe. 2013. 07. 018
[17] E. Rafiee, F. Emami, Design and Analysis of a Novel Hexagonal Shaped Channel Drop Filter Based on Two-Dimensional Photonic Crystals, Journal of Optoelectronical Nanostructures, Vol. 1, No. 2 (2016)39-46.
Available: http://jopn. miau. ac. ir/article_2047. html
[18] A. Dideban, H. Habibiyan, H. Ghafoorifard, Photonic crystal channel drop filter based on ring-shaped defects for DWDM systems. Phys. E Low Dimens. Syst. Nanostruct. (2017, March) 77-83.
Available: https://doi. org/10. 1016/j. physe. 2016. 11. 022
[19] S. Li, H. Liu, Q. Sun, N. Huang, Multi-channel terahertz wavelength division demultiplexer with defects-coupled photonic crystal waveguide. J. Mod. Opt 63(2016, November) 955-960.
Available: https://doi. org/10. 1080/09500340. 2015. 1111457
[20] Y. Lu, H. Liu, Q. Sun, N. Huang, Z. Wang, Terahertz narrowband filter based on rectangle photonic crystal. J. Mod. Opt 63(2016, November) 224-228.
Available: https://doi. org/10. 1080/09500340. 2015. 1111457
Novel Design for Photonic Crystal Ring Resonators Based Optical Channel Drop Filter * 75
[21] M. R. Rakhshani, M. A. Mansouri-Birjandi, Z. Rashki, Design of six channel de-multiplexer by hetero structure photonic crystal resonant cavity, Int. Res. J. Appl. BasicSci. 4(4)(2014)976–984.
Available: www. irjabs. com/files_site/paperlist/r_781_130422111503. pdf
[22] S. Robinson, R. Nakkeeran, Investigation on two dimensional photonic crystal resonant cavity based bandpass filter, Optik 123 (2012, March) 451–457.
Available: https://doi. org/10. 1016/j. ijleo. 2011. 05. 004
[23] F. Mehdizadeh, H. Alipour-Banaei, S. Serajmohammadi, Channel-drop filter based on a photonic crystal ring resonator. J. Opt 15, (2013, May) 075401.
Available: https://doi. org/10. 1088/2040-8978/15/7/075401
[24] L. Li, G. Q. Liu, Photonic crystal ring resonator channel drop filter. Opt. Int. J. Light Electron Opt. 124(17)(2013)2913–2915.
Available: https://doi. org/10. 1016/j. ijleo. 2012. 09. 012
[25] Y. Zheng, S. Li, and J. Kang, Two dimensional photonic crystal channel filter based on ring resonator, in IEEE Conf. on Photonics and Optoelectronics, Wahun, China(2009, September) 1–3.
Available: DOI: 10. 1109/SOPO. 2009. 5230214
[26] M. R. Rakhshani, M. A. Mansouri-Birjandi, Tunable channel drop filter using hexagonal photonic crystal ring resonators. Telkomnika 11, (2013, January) 513-516.
Available: DOI: 10. 11591/telkomnika. v11i1. 1788
[27] Z. Rashki, M. A. Mansouri Birjandi, New design of optical add-drop filter based on triangular lattice photonic crystal ring resonator, Tech. J. Eng. Appl. Sci. 3, (2013) 441-445.
Available:www. irjabs. com/files_site/paperlist/r_782_130422111653. pdf
[28] S. Robinson. R. Nakkeeran, Single and dual PCRR in square lattice for filtering applications, Energy Procedia 14, ( 2012, ) 1343–1348.
Available: https://doi. org/10. 1016/j. egypro. 2011. 12. 1099
[29] A. Taalbi, G. Bassou, M. Y. Mahmoud, New design of channel drop filters based on photonic crystal ring resonators. Opt. Int. J. Light Electron Opt124, (2014, May).
Available: https://doi. org/10. 1016/j. ijleo. 2012. 01. 045
[30] Z. Rashki, S. J. SeyyedMahdavi Chabok, Novel design of optical channel drop filters based on two-dimensional photonic crystal ring resonators. Opt. Commun. 395, (2017, July) 231-235.
Available: https://doi. org/10. 1016/j. optcom. 2016. 08. 077
[31] A. Dideban, H. Habibiyan, H. Ghafoorifard, Photonic crystal channel drop filters based on fractal structures. Phys. E LowDimens. Syst. Nanostruct. 63, (2014, September) 304-306.
Available: https://doi. org/10. 1016/j. physe. 2014. 06. 009
[32] A. Rostami, A. Haddadpour, F. Nazari, H. Alipour. Proposal for an ultracompact tunable wavelength-division-multiplexing optical filter based on quasi-2D photonic crystals. J. Opt 12 (2009, November) 015405.
Available: http://dx. doi. org/10. 1088/2040-8978/12/1/015405
[33] Z. Ma and K. Ogusu, Channel drop filters using photonic crystal Fabry–Perot resonators, Opt. Commun. 284(5) (2011, March) 1192–1196.
Available: https://doi. org/10. 1016/j. optcom. 2010. 10. 050
[34] T. Ahmadi-Tame, B. M. Isfahani, N. Granpayeh, A. M. Javan, Improving the performance of all optical switching based onnonlinear photonic crystal micro ring resonator. Int. J. Electron. Commun. (AEU) 65(2011, April) 281–287.
Available: https://doi. org/10. 1016/j. aeue. 2010. 03. 013
[35] T. Liu, A. R. Zakharian, M. Fallahi, J. V. Moloney, M. Mansuripur, Design of a compact photonic-crystal-based polarizing beam splitter. IEEE Photonics Technol. Lett. 17, (2005, July) 1435-1441.
Available: DOI: 10. 1109/LPT. 2005. 848278
[36] J. Barvestani, Omnidirectional narrow bandpass filters based on one-dimensional superconductor–dielectric photonic crystal heterostructors, Physica B 457 (2015, January) 218–224.
Available: https://doi. org/10. 1016/j. physb. 2014. 10. 019
[37] F. Monifi, M. Djavid, A. Ghaffari, M. Abrishamian, A new bandstop filter based on photonic crystals, In: Proceedings of the PIER, Cambridge, USA, (2008, July) 674-677.
Available: https://www. researchgate. net/publication/266228117
[38] W. Suh, S. Fan, All-pass transmission or flattop reflection filters using a single photonic crystal slab, Appl. Phys. Lett. 84(24) (2004, May) 4905–4907.
Available: https://doi. org/10. 1063/1. 1763221
[39] V. Dinesh Kumar, T. Srinivas, A. Selvarajan, Investigation of ring resonators in photonic crystal circuits, Photonics and Nanostructures – Fundamentals and Applications 2 ( 2004, December)199–206.
Available: https://doi. org/10. 1016/j. photonics. 2004. 11. 001
[40] M. David, A. Ghaffari, F. Monifi, M. S. Abrishamian, T-Shaped channel drop filters using photonic crystal ring resonators, Physica E 40, (2008, September) 3151–3154.
Available: https://doi. org/10. 1016/j. physe. 2008. 05. 002
[41] S. Rezaee, M. Zavvari, A novel optical filter based on H-shape photonic crystalring resonators, Optik - International Journal for Light and Electron Optics (2015, October) 2535-2538.
Available: https://doi. org/10. 1016/j. ijleo. 2015. 06. 043
[42] K. Venkatachalam D. Sriram Kumar S. Robinson, Performance analysis of 2D-Photonic Crystal based Eight Channel Wavelength Division Demultiplexer, Optik(127)(2016, October) 8819-8826.
Available: https://doi. org/10. 1016/j. ijleo. 2016. 06. 112
[43] K. S. Yee, Numerical solution of initial boundary value problems involving Maxwell’s equations. IEEE Trans Antennas Propag. 14(3), (1966, May) 302–307.
Available: DOI:10. 1109/TAP. 1966. 1138693
[44] S. Robinson, R. Nakkeeran, PCRR based add drop filters using photonic crystal ring resonators, Optic-Int. J. Light Electron Optik (2012, June).
Available: DOI: 10. 1117/1. OE. 52. 6. 060901
[45] P. Andalib, N. Granpayeh, Optical add/drop filter based on dual curved photonic crystal resonator. In: IEEE/LEOS International Conference on Optical MEMS and Nanophotonics (2008, August).
Available: DOI: 10. 1109/OMEMS. 2008. 4607883
[46] M. K. Chhipa, M. Radhouene, A. Dikshit, S. Robinson, B. Suthar, Novel compact optical channel drop filter for CWDM optical network applications. Int. J. Photonics Opt. Technol. 2 (4), (2016, December)26–29.
Available: http://www. ijpot. org/papers/pdf/1478941371-2410. pdf
[47] M. Djavid, M. S. Abrishamian, Multi-channel drop filters using photonic crystal ring resonators, Optik 123 (2012, January) 167– 170.
Available: https://doi. org/10. 1016/j. ijleo. 2011. 04. 001