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Modeling of thermal tunable multichannel filter using defective metallic photonic crystals

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The transmission spectra of one dimensional metallic photonic crystal containing defects are studied using a transfer matrix method. We consider silver as a defect layer with a refractive index dependent on wavelength and temperature simultaneously. Since the loss factor of silver is the function of temperature, we should find a structure that has sharp transmission peaks to model a filter. We present the structure with a coupled defect. It is found that the number of transmission resonant peaks is equal to the number of coupled defects and they are tunable with temperature and incident angle.
Czasopismo
Rocznik
Strony
611--619
Opis fizyczny
Bibliogr. 27 poz., rys.
Twórcy
autor
  • Department of Physics, Payame Noor University, Islamic Republic of Iran
autor
  • Department of Physics, Payame Noor University, Islamic Republic of Iran
Bibliografia
  • [1] SUKHOIVANOV I.A., GURYEV I.V., Photonic Crystals: Physics and Practical Modeling, Springer, New York, 2009.
  • [2] SAKODA K., Optical Properties of Photonic Crystals, 2nd Ed., Springer, New York, 2005.
  • [3] JOANNOPOULOS J.D., JOHNSON S.G., WINN J.N., MEADE R.D., Photonic Crystals: Molding the Flow of Light, Princeton University Press, Oxford, 2008.
  • [4] OKAMOTO K., Fundamental of Optical Waveguides, 2nd Ed., Academic Press, 2006.
  • [5] PRATHER D.W., SHARKAWY A., SHOUYUAN SHI, MURAKOWSKI J., SCHNEIDER G.J., Photonic Crystals, Theory, Applications and Fabrication, Wiley, Canada, 2009.
  • [6] SIBILIA C., BENSON T.M., MARCINIAK M. SZOPLIK T., Photonic Crystals: Physics and Technology, Springer, Italia, 2008.
  • [7] WENYUAN RAO, YANJUN SONG, MINGKAI LIU, CHONGJUN JIN, All-optical switch based on photonic crystal microcavity with multi-resonant modes, Optik – International Journal for Light and Electron Optics 121(21), 2010, pp. 1934–1936.
  • [8] MACLEOD H.A., Thin-Film Optical Filters, 3rd Ed., Institute of Physics Publishing, London, 2001.
  • [9] QIHUANG GONG, XIAOYONG HU, Photonic Crystals: Principles and Applications, Pan Stanford Publishing, 2013.
  • [10] AMING A., CHITAREE R., Design of channel filter based on asymmetric one-dimensional defective photonic crystal for broadband responses, [In] Proceedings of the International Multiconference of Engineers and Computer Scientists 2015, Vol. 2, IMECS 2015, Hong Kong, March 18–20, 2015.
  • [11] YUAN HUANG, JIAN-PING SHI, SONG-LIN WEN, KE-XIU DONG, Optical design of 1D-PC polarization filters with multi-channel, Optoelectronics Letters 6(3), 2010, pp. 187–190.
  • [12] SUTHAR B., KUMAR V., KUMAR A., KUMAR V., BHARGVA A., Thermal tuning of omnidirectional reflection band in Si-based 1D photonic crystal, International Journal of Recent Advances in Physics 3(1), 2014, pp. 9–16.
  • [13] ALY A.H., AGHAJAMALI A., ELSAYED H.A., MOBARAK M., Analysis of cutoff frequency in a one-dimensional superconductor-metamaterial photonic crystal, Physica C: Superconductivity and its Applications 528, 2016, pp. 5–8.
  • [14] YANG-HUA CHANG, YING-YAN JHU, CHIEN-JANG WU, Temperature and bias dependences of defect mode in a photonic crystal containing a photonic-quantum-well defect, Journal of Optoelectronics and Advanced Materials 14(3–4), 2012, pp. 185–192.
  • [15] ALY A.H., ELSAYED H.A., EL-NAGGAR S.A., Tuning the flow of light in two-dimensional metallic photonic crystals based on Faraday effect, Journal of Modern Optics 64(1), 2017, pp. 74–80.
  • [16] ALY A.H., ELSAYED H.A., Tunability of defective one-dimensional photonic crystals based on Faraday effect, Journal of Modern Optics 64(8), 2017, pp. 871–877.
  • [17] HSU H.-T., LEE M.-H., YANG T.-J., WANG Y.-C., WU C.-J., A multichanneled filter in a photonic crystal containing coupled defects, Progress in Electromagnetics Research 117, 2011, pp. 379–392.
  • [18] YEH P., Optical Waves in Layered Media, Wiley, New York, 1988.
  • [19] CELANOVIC I., PERREAULT D., KASSAKIAN, J., Resonant-cavity enhanced thermal emission, Physical Review B 72(7), 2005, article ID 075127.
  • [20] CHIANG H.-P., WANG Y.-C., LEUNG P.T., TSE W.S., A theoretical model for the temperature-dependent sensitivity of the optical sensor based on surface plasmon resonance, Optics Communications 188(5–6), 2001, pp. 283–289.
  • [21] BANERJEE A., Enhancement temperature sensing by using one-dimensional ternary photonic band gap structures, Progress in Electromagnetics Research Letters 11, 2009, pp. 129–137.
  • [22] YANG-HUA CHANG, YING-YAN JHU, CHIEN-JANG WU, Temperature dependence of defect mode in a defective photonic crystal, Optics Communications 285(6), 2012, pp. 1501–1504.
  • [23] MALIK J.V., JINDAL K.D., VINAY KUMAR, VIPIN KUMAR, ARUN KUMAR, SINGH KH.S., SINGH T.P., Effect of temperature on photonic band gaps in semiconductor-based one-dimensional photonic crystal, Advances in Optical Technologies, Vol. 2013, 2013, article ID 798087.
  • [24] MALIK J.V., VIPIN KUMAR, ARUN KUMAR, SINGH T.P., SINGH KH.S., Thermal tuning of defect modes in Si-based one-dimensional photonic crystal with a defect, International Journal of Engineering and Innovative Technology 2(3), 2012, pp. 347–351.
  • [25] KAI TONG, WEI-WEI CUI, GUO-HUI YAN, ZHI-QUAN LI, Study on temperature property of band structures in one-dimensional photonic crystals, Optoelectronics Letters 3(6), 2007, pp. 444–447.
  • [26] TSUNG-WEN CHANG, CHIEN-JANG WU, Analysis of tuning in a photonic crystal multichannel filter containing coupled defects, Optik – International Journal for Light and Electron Optics 124(15), 2013, pp. 2028–2032.
  • [27] SAVAGE L., Property management: a review of optical materials, Photonics Spectra, 2011, pp. 55–58.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e6676b06-8b56-44cc-a717-0d2f77d09092
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