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Arefian, Naimeh, Rahmani, Zeinab. (1403). About Tunable Ternary Warm Magnetized Plasma Photonic Crystals. نشریه هنرهای کاربردی, 5(1), 39-45. doi: 10.22075/ppam.2024.35727.1119
Naimeh Arefian; Zeinab Rahmani. "About Tunable Ternary Warm Magnetized Plasma Photonic Crystals". نشریه هنرهای کاربردی, 5, 1, 1403, 39-45. doi: 10.22075/ppam.2024.35727.1119
Arefian, Naimeh, Rahmani, Zeinab. (1403). 'About Tunable Ternary Warm Magnetized Plasma Photonic Crystals', نشریه هنرهای کاربردی, 5(1), pp. 39-45. doi: 10.22075/ppam.2024.35727.1119
Arefian, Naimeh, Rahmani, Zeinab. About Tunable Ternary Warm Magnetized Plasma Photonic Crystals. نشریه هنرهای کاربردی, 1403; 5(1): 39-45. doi: 10.22075/ppam.2024.35727.1119

About Tunable Ternary Warm Magnetized Plasma Photonic Crystals

Progress in Physics of Applied Materials
مقاله 6، دوره 5، شماره 1 - شماره پیاپی 8، مرداد 2025، صفحه 39-45    اصل مقاله (1.1 M)
نوع مقاله: Original Article
شناسه دیجیتال (DOI): 10.22075/ppam.2024.35727.1119
نویسندگان
Naimeh Arefian؛ Zeinab Rahmani*
Department of Laser and Photonics, Faculty of Physics, University of Kashan, Kashan, I. R. Iran
تاریخ دریافت: 17 آبان 1403،  تاریخ بازنگری: 07 دی 1403،  تاریخ پذیرش: 07 دی 1403 
چکیده
In this study, the propagation of electromagnetic (EM) waves and band gap structure in a one-dimensional ternary plasma photonic crystal (PPC) is investigated. The unit cell of the structure consists of dielectric I-plasma-dielectric II and an external constant magnetic field is applied perpendicular to the PPC boundary. In under study PPC, effects of thermal velocity of plasma electrons are taken into account as a dissipative factor. This structure irradiated by obliquely incident linear EM wave, but right-handed and left-handed waves are propagated with different velocities due to existence of DC magnetic field along the wave vector; and therefore, the well-known Faraday rotation effect occurs. The dispersion relation, band gap structure and absorption of the electromagnetic wave will be studied for right-handed waves. It will be shown by changing different parameters such as intensity of the external magnetic field, filling factor and the electron thermal velocity of the plasma layer and dielectric constant of the dielectric layer, the width, number and the location of band gaps can be adjusted.
کلیدواژه‌ها
Ternary Magnetized Plasma Photonic Crystal؛ Electron Thermal Velocity؛ Band Gap؛ Absorption؛ Reflection
مراجع
  1. Huang, N.N., Chung, Y.C., Chiu, H.T., Hsu, J.C., Lin, Y.F., Kuo, C.T., Chang, Y.W., Chen, C.Y. and Lin, T.R., 2020. Dual photonic–phononic crystal slot nanobeam with gradient cavity for liquid sensing. Crystals10(5), p.421.
  2. Khorasani, S., 2007. An introduction to optics of photonic crystals. Tehran, Iran: Novin Publishers.
  3. Sun, P.P., Zhang, R., Chen, W., Braun, P.V. and Eden, J.G., 2019. Dynamic plasma/metal/dielectric photonic crystals in the mm-wave region: Electromagnetically-active artificial material for wireless communications and sensors. Applied Physics Reviews6(4).
  4. Huang, N.N., Chung, Y.C., Chiu, H.T., Hsu, J.C., Lin, Y.F., Kuo, C.T., Chang, Y.W., Chen, C.Y. and Lin, T.R., 2020. Dual photonic–phononic crystal slot nanobeam with gradient cavity for liquid sensing. Crystals10(5), p.421.
  5. Taya, S.A., 2018. Ternary photonic crystal with left-handed material layer for refractometric application. Opto-Electronics Review26(3), pp.236-241.
  6. El-Khozondar, H.J., Mahalakshmi, P., El-Khozondar, R.J., Ramanujam, N.R., Amiri, I.S. and Yupapin, P., 2019. Design of one dimensional refractive index sensor using ternary photonic crystal waveguide for plasma blood samples applications. Physica E: Low-dimensional Systems and Nanostructures111, pp.29-36.
  7. Bulgakov, E.N. and Sadreev, A.F., 2018. Scattering plane waves by a dielectric cylinder with periodically modulated permittivity at oblique incidence. Physical Review A97(6), p.063856.
  8. Rahmani, Z., 2021. Influence of Different Parameters on Absorption Intensity and Band Gap of The Ternary Plasma Photonic Crystal Considering the Collision and Thermal Effects of Plasma. Journal Modern Research Physics5(2), pp.0-0.
  9. Kumar, N., Suthar, B. and Rostami, A., 2023. Novel optical behaviors of metamaterial and polymer-based ternary photonic crystal with lossless and lossy features. Optics Communications529, p.129073.
  10. Biswal, A., Kumar, R., Nayak, C., Dhanalakshmi, S., Behera, H. and Lyubchanskii, I.L., 2022. Analysis of transmission spectra in one-dimensional ternary photonic crystals with complex unit cell. Optik261, p.169169.
  11. El-Amassi, D.M., Taya, S.A., Ramanujam, N.R., Vigneswaran, D. and Udaiyakumar, R., 2018. Extension of energy band gap in ternary photonic crystal using left-handed materials. Superlattices and Microstructures120, pp.353-362.
  12. Kee, C.S., Lim, H., Ha, Y.K., Kim, J.E. and Park, H.Y., 2001. Two-dimensional tunable metallic photonic crystals infiltrated with liquid crystals. Physical Review B64(8), p.085114.
  13. Meng, Q.B., Fu, C.H., Hayami, S., Gu, Z.Z., Sato, O. and Fujishima, A., 2001. Effects of external electric field upon the photonic band structure in synthetic opal infiltrated with liquid crystal. Journal of Applied Physics89(10), pp.5794-5796.
  14. Kang, D., Maclennan, J.E., Clark, N.A., Zakhidov, A.A. and Baughman, R.H., 2001. Electro-optic behavior of liquid-crystal-filled silica opal photonic crystals: Effect of liquid-crystal alignment. Physical Review Letters86(18), p.4052.
  15. Johri, G.K., Tiwari, A., Johri, M. and Yoshino, K., 2001. Theoretical study of temperature tuning and anisotropy of liquid crystal infiltrated synthetic opal as photonic crystal. Japanese Journal of Applied Physics40(7R), p.4565.
  16. Halevi, P.A. and Ramos-Mendieta, F., 2000. Tunable photonic crystals with semiconducting constituents. physical Review letters85(9), p.1875.
  17. Kee, C.S. and Lim, H., 2001. Tunable complete photonic band gaps of two-dimensional photonic crystals with intrinsic semiconductor rods. Physical Review B64(12), p.121103.
  18. Kim, S. and Gopalan, V., 2001. Strain-tunable photonic band gap crystals. Applied Physics Letters78(20), pp.3015-3017.
  19. Hojo, H. and Mase, A., 2004. Dispersion relation of electromagnetic waves in one-dimensional plasma photonic crystals. Journal of Plasma and Fusion Research80(2), pp.89-90.
  20. Jia, W., Li, Y., Xi, Y., Jiang, P., Xu, X., Liu, X., Fu, R. and Zi, J., 2003. Tunability of photonic crystals based on the Faraday effect. Journal of Physics: Condensed Matter15(40), p.6731.
  21. Kong, X.K., Liu, S.B., Zhang, H.F., Li, C.Z. and Bian, B.R., 2011. Omnidirectional photonic band gap of one-dimensional ternary plasma photonic crystals. Journal of Optics13(3), p.035101.
  22. Guo, B., 2009. Photonic band gap structures of obliquely incident electromagnetic wave propagation in a one-dimension absorptive plasma photonic crystal. physics of plasmas16(4).
  23. H.Mehdian,Z.Mohammadzahery A. Hasanbeigi, 2015, Tunable Faraday effect in one-dimensional photonic crystals doped by plasma, Journal of Optik, 127, pp. 3895-3898.
  24. Alexandrov, A.F., Bogdankevich, L.S. and Rukhadze, A.A., 1984. Principles of plasma electrodynamics (Vol. 9). Berlin: Springer.
  25. Krall, N.A., Trivelpiece, A.W. and Gross, R.A., 1973. Principles of plasma physics. American Journal of Physics41(12), pp.1380-1381.
  26. Qi, L., Yang, Z., Lan, F., Gao, X. and Shi, Z., 2010. Properties of obliquely incident electromagnetic wave in one-dimensional magnetized plasma photonic crystals. Physics of Plasmas17(4).

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