Title :
Plasmonic Bloch–Zener Oscillation and Beam Curling in Metal–Dielectric Waveguide Arrays
Author :
Ruei-Cheng Shiu ; Yung-Chiang Lan
Author_Institution :
Dept. of Photonics, Nat. Cheng Kung Univ., Tainan, Taiwan
Abstract :
This paper investigates plasmonic Bloch-Zener oscillation and beam curling in metal-dielectric waveguide arrays (MDWAs) using numerical simulations and theoretical analyses. The beam generated by plasmonic Zener tunneling undergoes a plasmonic Bloch oscillation in the second band of MDWAs and becomes curled. Changing the width and the relative-permittivity gradient of the dielectric layers causes this curled beam to move backward, forward, or even unmoved. Increasing the width and the relative-permittivity gradient of the dielectric layers increases the rightward displacement and reduces the leftward displacement. The direction of motion of the curled beam is determined by the net longitudinal displacement.
Keywords :
nanophotonics; optical arrays; optical waveguides; permittivity; plasmonics; tunnelling; MDWA; beam curling; dielectric layer; metal-dielectric waveguide arrays; net longitudinal displacement; plasmonic Bloch oscillation; plasmonic Bloch-Zener oscillation; plasmonic Zener tunneling; relative permittivity gradient; Dielectrics; Educational institutions; Indexes; Optical waveguides; Oscillators; Plasmons; Tunneling; Optical coupling; optical waveguides; surface waves; tunneling;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2012.2229697
