Terahertz properties of carbon nanotubes antenna arrays

Abstract

A novel nano-antenna for the generation and applications of THz wave is proposed based on the carbon nanotube. The geometric structure and radiation properties of carbon nanotube (CNT) antenna at THz span have been investigated by the finite integral numerical methods. The designed typical CNT antenna arrays (λ=3.0×104nm, L =0.485λ, R =2.712nm, d =0.1λ) operate from 9.3 THz to 10.2 THz, and main resonant frequency is 9.7 THz. The simulated -10dB return loss (S11) bandwidths is about 10% and the standing wave ratio is less than 1.5 at the center frequency of 9.7THz with the total radiation efficiency in excess of 85%. The maximum gains for 5×5, 15×15, 25×25 CNT antenna array are 5.92dB, 8.19dB and 8.50dB in the center frequency, respectively. The details of THz antenna characteristics such as field distribution, surface current profile, standing wave ratio, scattering coefficient and gain are presented and discussed. The overall results could be suitable for the design of CNT antenna array generating THz wave.© (2007) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.