The right circular polarized waves in the three-dimensional anisotropic dispersive photonic crystals consisting of the magnetized plasma and uniaxial material as the Faraday effects considered

doi:https://doi.org/10.1063/1.4869729

Title: The right circular polarized waves in the three-dimensional anisotropic dispersive photonic crystals consisting of the magnetized plasma and uniaxial material as the Faraday effects considered

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Abstract

In this paper, the properties of the right circular polarized (RCP) waves in the three-dimensional (3D) dispersive photonic crystals (PCs) consisting of the magnetized plasma and uniaxial material with face-centered-cubic (fcc) lattices are theoretically investigated by the plane wave expansion method, which the homogeneous anisotropic dielectric spheres (the uniaxial material) immersed in the magnetized plasma background, as the Faraday effects of magnetized plasma are considered (the incidence electromagnetic wave vector is parallel to the external magnetic field at any time). The equations for calculating the anisotropic photonic band gaps (PBGs) for the RCP waves in the first irreducible Brillouin zone are theoretically deduced. The anisotropic PBGs and a flatbands region can be obtained. The effects of the ordinary-refractive index, extraordinary-refractive index, anisotropic dielectric filling factor, plasma frequency, and plasma cyclotron frequency (the external magnetic field) on the properties of first two anisotropic PBGs for the RCP waves are investigated in detail, respectively. The numerical results show that the anisotropy can open partial band gaps in fcc lattices at U and W points, and the complete PBGs for the RCP waves can be achieved compared to the conventional 3D dispersive PCs composed of the magnetized plasma and isotropic material. It ismore »« less

Authors:

Zhang, Hai-Feng ^[1]; Nanjing Artillery Academy, Nanjing 211132 ^[2]; Liu, Shao-Bin; Tang, Yi-Jun ^[1]; Zhen, Jian-Ping ^[3]

Key Laboratory of Radar Imaging and Microwave Photonics (Nanjing Univ. Aeronaut. Astronaut.), Ministry of Education, Nanjing University of Aeronautics and Astronautics, Nanjing 210016 (China)
China
Nanjing Artillery Academy, Nanjing 211132 (China)

Publication Date:: 2014-03-15

OSTI Identifier:: 22252193

Resource Type:: Journal Article

Journal Name:: Physics of Plasmas

Additional Journal Information:: Journal Volume: 21; Journal Issue: 3; Other Information: (c) 2014 AIP Publishing LLC; Country of input: International Atomic Energy Agency (IAEA); Journal ID: ISSN 1070-664X

Country of Publication:: United States

Language:: English

Subject:: 70 PLASMA PHYSICS AND FUSION TECHNOLOGY; ANISOTROPY; BRILLOUIN ZONES; CRYSTALS; CYCLOTRON FREQUENCY; DIELECTRIC MATERIALS; ELECTROMAGNETIC RADIATION; EQUATIONS; FCC LATTICES; LANGMUIR FREQUENCY; MAGNETIC FIELDS; PLASMA; REFRACTIVE INDEX; VECTORS; WAVE PROPAGATION

Citation Formats


                    Zhang, Hai-Feng, Nanjing Artillery Academy, Nanjing 211132, Liu, Shao-Bin, Tang, Yi-Jun, and Zhen, Jian-Ping. The right circular polarized waves in the three-dimensional anisotropic dispersive photonic crystals consisting of the magnetized plasma and uniaxial material as the Faraday effects considered.  United States: N. p., 2014. 
        Web.  doi:10.1063/1.4869729.

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                    Zhang, Hai-Feng, Nanjing Artillery Academy, Nanjing 211132, Liu, Shao-Bin, Tang, Yi-Jun, & Zhen, Jian-Ping. The right circular polarized waves in the three-dimensional anisotropic dispersive photonic crystals consisting of the magnetized plasma and uniaxial material as the Faraday effects considered.  United States.  https://doi.org/10.1063/1.4869729

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                    Zhang, Hai-Feng, Nanjing Artillery Academy, Nanjing 211132, Liu, Shao-Bin, Tang, Yi-Jun, and Zhen, Jian-Ping. Sat .  
        "The right circular polarized waves in the three-dimensional anisotropic dispersive photonic crystals consisting of the magnetized plasma and uniaxial material as the Faraday effects considered".  United States.  https://doi.org/10.1063/1.4869729.

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@article{osti_22252193,

  title        = {The right circular polarized waves in the three-dimensional anisotropic dispersive photonic crystals consisting of the magnetized plasma and uniaxial material as the Faraday effects considered},

  author       = {Zhang, Hai-Feng and Nanjing Artillery Academy, Nanjing 211132 and Liu, Shao-Bin and Tang, Yi-Jun and Zhen, Jian-Ping},

  abstractNote = {In this paper, the properties of the right circular polarized (RCP) waves in the three-dimensional (3D) dispersive photonic crystals (PCs) consisting of the magnetized plasma and uniaxial material with face-centered-cubic (fcc) lattices are theoretically investigated by the plane wave expansion method, which the homogeneous anisotropic dielectric spheres (the uniaxial material) immersed in the magnetized plasma background, as the Faraday effects of magnetized plasma are considered (the incidence electromagnetic wave vector is parallel to the external magnetic field at any time). The equations for calculating the anisotropic photonic band gaps (PBGs) for the RCP waves in the first irreducible Brillouin zone are theoretically deduced. The anisotropic PBGs and a flatbands region can be obtained. The effects of the ordinary-refractive index, extraordinary-refractive index, anisotropic dielectric filling factor, plasma frequency, and plasma cyclotron frequency (the external magnetic field) on the properties of first two anisotropic PBGs for the RCP waves are investigated in detail, respectively. The numerical results show that the anisotropy can open partial band gaps in fcc lattices at U and W points, and the complete PBGs for the RCP waves can be achieved compared to the conventional 3D dispersive PCs composed of the magnetized plasma and isotropic material. It is also shown that the first two anisotropic PBGs can be tuned by those parameters as mentioned above. Those PBGs can be enlarged by introducing the uniaxial material into such 3D PCs as the Faraday effects are considered.},

  doi          = {10.1063/1.4869729},

  url          = {https://www.osti.gov/biblio/22252193},
  journal      = {Physics of Plasmas},

  issn         = {1070-664X},

  number       = 3,

  volume       = 21,

  place        = {United States},

  year         = {2014},

  month        = {3}

}

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