Elnaz Shokati scite author profile

Elnaz Shokati

5Publications

16Citation Statements Received

0Citation Statements Given

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144

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K.N.Toosi University of Technology

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Wideband and multi-frequency infrared cloaking of spherical objects by using the graphene-based metasurface

2017

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The ultrathin graphene metasurface is proposed as a mantle cloak to achieve wideband tunable scattering reduction around the spherical (three-dimensional) objects. The cloaking shell over the metallic or dielectric sphere is structured by a periodic array of graphene nanodisks that operate at infrared frequencies. By using the polarizability of the graphene nanodisks and equivalent conductivity method, the metasurface reactance is obtained. To achieve the cloaking shell for both dielectric and conducting spheres, the metasurface reactance as a function of nanodisks dimensions, graphene's Fermi energy, and permittivity of the surrounding areas can be tuned from the inductive to capacitive situation. Inhomogeneous metasurfaces including graphene nanodisks with different radii provide wideband invisibility due to extra resonances. We could significantly increase the 3-dB bandwidth more than the homogenous case by simpler realistic designs compared to the multi-layer structures. The analytical results are confirmed with full-wave numerical simulations.

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High-efficiency tunable plasmonically induced transparency-like effect in metasurfaces composed of graphene nano-rings and ribbon arrays and its application

Asgari¹,

Shokati²,

Granpayeh³

2019

Appl. Opt.

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Dual-Band Polarization-Sensitive Graphene Chiral Metasurface and its Application as a Refractive Index Sensor

2019

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Wideband cloaking by using inhomogeneous nanostructured graphene metasurface for tunable cloaking in the terahertz regime

Shokati

Granpayeh

2016

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High operative polarization converter using metasurface consisted of dual reciprocal L-shaped graphene array

Shokati

Granpayeh

2020

J. Nanophoton.

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Elnaz Shokati

Wideband and multi-frequency infrared cloaking of spherical objects by using the graphene-based metasurface

High-efficiency tunable plasmonically induced transparency-like effect in metasurfaces composed of graphene nano-rings and ribbon arrays and its application

Dual-Band Polarization-Sensitive Graphene Chiral Metasurface and its Application as a Refractive Index Sensor

Wideband cloaking by using inhomogeneous nanostructured graphene metasurface for tunable cloaking in the terahertz regime

High operative polarization converter using metasurface consisted of dual reciprocal L-shaped graphene array

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