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Ultracompact Vanadium Dioxide Dual-Mode Plasmonic Waveguide Electroabsorption Modulator

Mesoscale and Nanoscale Physics 2013-12-31 v1 Optics

Abstract

Subwavelength modulators play an indispensable role in integrated photonic-electronic circuits. Due to weak light-matter interactions, it is always a challenge to develop a modulator with a nanometer scale footprint, low switching energy, low insertion loss and large modulation depth. In this paper, we propose the design of a vanadium dioxide dual-mode plasmonic waveguide electroabsorption modulator using a metal-insulator-VO2_2-insulator-metal (MIVIM) waveguide platform. By varying the index of vanadium dioxide, the modulator can route plasmonic waves through the low-loss dielectric insulator layer during the "on" state and high-loss VO2_2 layer during the "off" state, thereby significantly reducing the insertion loss while maintaining a large modulation depth. This ultracompact waveguide modulator, for example, can achieve a large modulation depth of ~10dB with an active size of only 200x50x220nm3^3 (or ~{\lambda}3^3/1700), requiring a drive-voltage of ~4.6V. This high performance plasmonic modulator could potentially be one of the keys towards fully-integrated plasmonic nanocircuits in the next-generation chip technology.

Keywords

Cite

@article{arxiv.1312.7636,
  title  = {Ultracompact Vanadium Dioxide Dual-Mode Plasmonic Waveguide Electroabsorption Modulator},
  author = {Kelvin J. A. Ooi and Ping Bai and Hong Son Chu and Lay Kee Ang},
  journal= {arXiv preprint arXiv:1312.7636},
  year   = {2013}
}

Comments

10 pages, 4 figures

R2 v1 2026-06-22T02:36:41.403Z