Characterization of graphene-based photonic crystal in THz spectrum with finite-difference time domain method

doi:10.1088/1674-1056/23/9/094203

Abstract Graphene has been considered as a promising material which may find applications in the THz science. In this work, we numerically investigate tunable photonic crystals in the THz range based on stacked graphene/dielelctric layers, a complex pole-residue pair model is used to find the effective permittivity of graphene, which could be easily incorporated into the finite-difference time domain (FDTD) algorithm. Two different schemes of photonic crystal used for extending the bandgap have been simulated through this FDTD technique.

Keywords: graphene photonic cyrstal

Received: 16 January 2014
Revised: 26 March 2014
Accepted manuscript online:

PACS:	42.25.Bs	(Wave propagation, transmission and absorption)
	81.05.ue	(Graphene)

Fund: Project supported by the Spanish Ministry of Education (Grant No. SB2010-0056), the EU FP7/2007-2013 (Grant No. 205294) (HIRF SE project), the Spanish National Projects (Grant Nos. TEC2010-20841-C04-04 and CSD2008-00068), the Junta de Andalusia Project (Grant No. P09-TIC-5327), the National Natural Science Foundation of China (Grant No. 60906030), and the Self Research Program of Central China Normal University (Grant No. 09010028).

Corresponding Authors: Lin Hai
E-mail: linhai.ccnu@gmail.com

Cite this article:

Lin Hai (林海), Xu Di (徐笛), M. F. Pantoja, S. G. Garcia, Yang He-Lin (杨河林) Characterization of graphene-based photonic crystal in THz spectrum with finite-difference time domain method 2014 Chin. Phys. B 23 094203

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Characterization of graphene-based photonic crystal in THz spectrum with finite-difference time domain method

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