Journal article
Electromagnetic modeling of multiwalled carbon nanotubes as nanorod electrodes for optimizing device geometry in a nanophotonic device
H Butt, R Rajasekharan, TD Wilkinson, GAJ Amaratunga
IEEE Transactions on Nanotechnology | IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC | Published : 2011
Abstract
We present electric-field modeling of carbon nanotubes (CNTs) as nanorods to optimize electrode geometry in a light-modulating nanophotonic device based on CNTs and liquid crystals. The electric fields spawned by the nanotube electrodes are used to align the liquid crystal molecules to generate a gradient refractive-index profile. We considered an array of CNTs on a 2-D conducting substrate. Different geometries were realized by choosing one, two, three, and four CNTs at each point. The static electric fields produced by these different geometries were simulated. Our results show that the four nanotube groups generated a wide and symmetrical electric field as compared to other geometries. We..
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Awarded by Engineering and Physical Sciences Research Council
Funding Acknowledgements
This work was supported in part by the research grant of Prof. G. Amaratunga, in part by the Cambridge Commonwealth Trust, and in part by the Hughes Hall College. The review of this paper was arranged by Associate Editor A. A. Balandin.