Effective dielectric constants of photonic crystal of aligned anisotropic cylinders and the optical response of a periodic array of carbon nanotubes Metadata
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- Main Title Effective dielectric constants of photonic crystal of aligned anisotropic cylinders and the optical response of a periodic array of carbon nanotubes
Author: Reyes, E.Creator Type: PersonalCreator Info: Universidad Autónoma de Puebla
Author: Krokhin, Arkadii A.Creator Type: PersonalCreator Info: University of North Texas
Author: Roberts, James A.Creator Type: PersonalCreator Info: University of North Texas
Name: American Physical SocietyPlace of Publication: [College Park, Maryland]
- Creation: 2005-10-25
- Content Description: This article discusses effective dielectric constants of photonic crystal of aligned anisotropic cylanders and the optical response of a periodic array of carbon nanotubes.
- Physical Description: 4 p.
- Keyword: anisotropic crystals
- Keyword: photonic crystals
- Keyword: carbon nanotubes
- Journal: Physical Review B, 2005, College Park: American Physical Society
- Publication Title: Physical Review B
- Volume: 72
- Issue: 15
- Pages: 4
- Peer Reviewed: True
Name: UNT Scholarly WorksCode: UNTSW
Name: UNT College of Arts and SciencesCode: UNTCAS
- Rights Access: public
- DOI: 10.1103/PhysRevB.72.155118
- Archival Resource Key: ark:/67531/metadc103277
- Academic Department: Physics
- Display Note: Copyright 2006 American Physical Society. The following article appeared in Physical Review B, 72:15, http://link.aps.org/doi/10.1103/PhysRevB.72.155118
- Display Note: Abstract: We calculate the static dielectric tensor of a periodic system of aligned anisotropic dielectric cylinders. Exact analytical formula for the effective dielectric constants for the H-eigenmodes is obtained for arbitrary 2D Bravais lattice and arbitrary cross section of anisotropic cylinders behaves like uniaxial or biaxial natural crystals. The developed theory of homogenization of anisotropic cylinders is applied for calculations of the dielectric properties of photonic crystals of carbon nanotubes.