Title :
A Terahertz Modulator Based on Graphene Plasmonic Waveguide
Author :
Binggang Xiao ; Runliang Sun ; Jinlong He ; Kang Qin ; Sheng Kong ; Jing Chen ; Wang Xiumin
Author_Institution :
Coll. of Inf. Eng., China Jiliang Univ., Hangzhou, China
Abstract :
Graphene has many novel properties such as the ability of guiding plasmonic wave at terahertz (THz) frequencies, chemical potential shift as the carrier density changed. Since carrier density of graphene can be modified by bias voltage, the coupling coefficients or propagation loss of graphene plasmon can be modulated easily. A compact wideband terahertz modulator is proposed to modulate and guide plasmonic waves. The surface plasmon polariton (SPP) propagation and the modulation depth in the graphene biased structure are numerically investigated. The proposed THz plasmonic modulator has a wide working band about 1 THz and its modulation depth reaches about 76% at the frequency of 8 THz, which have potential application in THz communication.
Keywords :
carrier density; graphene; numerical analysis; optical couplers; optical losses; optical modulation; optical waveguides; plasmonics; polaritons; surface plasmons; terahertz waves; C; carrier density; chemical potential shift; compact wideband terahertz modulator; frequency 1 THz; graphene plasmonic waveguide; numerical analysis; optical coupling coefficients; optical propagation loss; surface plasmon polariton propagation; terahertz frequencies; Attenuation; Chemicals; Couplings; Frequency modulation; Graphene; Plasmons; Graphene; Surface plasmons; Waveguide modulators; surface plasmons; waveguide modulators;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2454516
