Multi-conductor transmission line networks in analysis of side-coupled metal-insulator-metal plasmonic structures

Eshaghian, A; Bahadori, M Rezaei, M Khavasi, A Hodaei, H Mehrany, K Sharif University of Technology

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Multi-conductor transmission line networks in analysis of side-coupled metal-insulator-metal plasmonic structures

Eshaghian, A ; Sharif University of Technology

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Type of Document: Article
DOI: 10.1016/j.optcom.2013.10.047
Abstract:
An approximate and accurate enough multi-conductor transmission line model is developed for analysis of side-coupled metal-insulator-metal (MIM) waveguides. MIM waveguides have been already modeled by single conductor transmission lines. Here, the side coupling effects that exist between neighboring plasmonic structures are taken into account by finding appropriate values for distributed mutual inductance and mutual capacitance between every two neighboring conductors in the conventional single-conductor transmission line models. In this manner, multi-conductor transmission line models are introduced. Closed-form expressions are given for the transmission and reflection of miscellaneous MIM plasmonic structures, e.g. dual-stop-band and band-pass filters. In all examples, the results of the proposed model are compared against the fully numerical finite-difference time-domain (FDTD) method. The results of the analytical model are in good agreement with the numerical results
Keywords:
Distributed circuits ; Optical filters ; Side-coupling ; Surface waves ; Transmission lines ; Closed-form expression ; Finite-difference time-domain (FDTD) methods ; Metal insulator metals ; Multi-conductor transmission line model ; Multi-conductor transmission lines ; Transmission line models ; Bandpass filters ; Electric lines ; Electromagnetic wave emission ; Finite difference time domain method ; Inductance ; Metal insulator boundaries ; Numerical methods ; Plasmons ; Time domain analysis ; Transmission line theory ; Waveguides ; MIM devices
Source: Optics Communications ; Vol. 313, issue , 2014 , pp. 375-381 ; ISSN: 00304018
URL: http://www.sciencedirect.com/science/article/pii/S0030401813009759

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