2018
DOI: 10.3390/electronics7110285
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Equivalent Resonant Circuit Modeling of a Graphene-Based Bowtie Antenna

Abstract: The resonance performance analysis of graphene antennas is a challenging problem for full-wave electromagnetic simulators due to the trade-off between the computer resource and the accuracy of results. In this paper, an equivalent circuit model is presented to provide a concise and fast way to analyze the graphene-based THz bowtie antenna. Based on the simulated results of the frequency responses of the antenna, a suitable equivalent circuit of Resistor-Inductor-Capacitor (RLC) series is proposed to describe t… Show more

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Cited by 13 publications
(17 citation statements)
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“…Remember that this electrostatic method estimates the graphene sheets as an infinite ideal conductor to calculate the carrier densities. Merging Equations (14)- (16), the chemical potential of each graphene layer can be found through [78]…”
Section: Conductivity Of Multi-layer Stacked Graphene Sheetsmentioning
confidence: 99%
See 1 more Smart Citation
“…Remember that this electrostatic method estimates the graphene sheets as an infinite ideal conductor to calculate the carrier densities. Merging Equations (14)- (16), the chemical potential of each graphene layer can be found through [78]…”
Section: Conductivity Of Multi-layer Stacked Graphene Sheetsmentioning
confidence: 99%
“…The equivalent circuit per unit length is introduced in [62], where the author calculated the analytical expression for the graphene conductivity and circuit lumped components and illustrated the propagation of surface waves along spatial graphene waveguides. Recently, the equivalent resonant circuit model was designed by Zhang et al for the validation of simulated results, and extracted resistive, inductive, and capacitive (RLC) parameters by considering the graphene bowtie antenna as one port resonator [78]. Additionally, the partial element equivalent circuit (PEEC) method is utilized for designing the equivalent circuit of the graphene-based terahertz antenna [99].…”
Section: Electromagnetic Interaction and Computational Modeling Of Grmentioning
confidence: 99%
“…It is important to note that this electrostatic method estimated the graphene sheets as an infinite ideal conductor to calculate the carrier densities. Merging Equations (5)-(7), the chemical potential of each graphene layer can be found through [34],…”
Section: Extraction Of Multi-layer Graphene Stack Conductivitymentioning
confidence: 99%
“…Contrarily, the carrier density is generally associated with the applied external electrostatic bias field. Consequently, the chemical potential is identified with applied biasing voltage through carrier density [34]. The gate bias is applied between the graphene stack and dielectric media to tune and actively control the conductivity [41].…”
Section: Effect Of Chemical Potential On Graphene Conductivity and Permmentioning
confidence: 99%
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