Plasmonic wideband GST‐based switch in the near‐infrared region

Heidari, Saman; Nozhat, Najmeh

doi:10.1049/ote2.12073

Cited by 4 publications

(2 citation statements)

References 38 publications

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“… Dynamically tunable Frequency range (THz) ECM Max. extinction ratio (dB) 43 No 0.1–0.9 No 20.5 44 No 0.9–1.1 No 5.26 45 No 187–260 Yes 13.71 46 Yes 0.1–6.5 No 23 This work Yes 0.1–5.5 Yes 33.01 …”

Section: Resultsmentioning

confidence: 96%

Terahertz graphene-based multi-functional anisotropic metamaterial and its equivalent circuit model

Asgari

Fabritius

2023

Sci Rep

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In this paper, a graphene-based multi-functional anisotropic metamaterial composed of two finite parallel graphene ribbons in each unit cell is designed and proposed in the 0.1–5.5 terahertz (THz) region. Simulations are performed by the finite element method (FEM) in the frequency-domain solver of CST Software. An equivalent circuit modeling (ECM) as a simplified approach has been provided by a MATLAB code to model the performance of the metamaterial. The metastructure is polarization-sensitive because of the geometric non-symmetry. The absorption/reflection spectrum of the metamaterial is dynamically tunable by changing the Fermi energy level of the graphene. The introduced metamaterial can act as a THz switch and inverter at 1.23 and 4.21 THz. It acts as an ON state when the incident electric field is in the x-direction and acts as an OFF state when the incident electric field is in the y-direction. It can also act as a bi-functional mirror: a triple-band mirror for the incident electric field in the x-direction and an ultra-broadband mirror for the incident electric field in the y-direction. The proposed metamaterial has a maximum absorption of 100%, maximum linear dichroism (LD) of 100%, and a maximum switching extinction ratio of 33.01 dB. The metamaterial and its applications could be used as a potential platform in future THz devices and systems.

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Section: Resultsmentioning

confidence: 96%

Terahertz graphene-based multi-functional anisotropic metamaterial and its equivalent circuit model

Asgari

Fabritius

2023

Sci Rep

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“…Following this work, several researchers 34 – 36 have reported meta-switches having modulation strengths as high as 10 dB with moderate Q-factors (9 to 14). Heidari and Nozhat 37 obtained high contrast (13.71 dB) and Q-factor 12 in the SWIR spectrum, and He et al 38 . obtained very narrow width switches, although with moderate switching contrasts (up to 7.4 dB at 1580 nm).…”

Section: Introductionmentioning

confidence: 96%

Optimally designed tunable phase change material-based narrowband perfect absorber

Tripathi

Hegde

2023

J. Nanophoton.

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.In recent years, there has been a growing interest in active metasurfaces. In particular, phase change material-based metasurfaces offering all-optical reconfigurability are being explored. Despite recent progress, further improvement in device reconfiguration energies and optical contrast achievable between the amorphous and crystalline states is desirable. In this work, we demonstrate that using a mirror-backed chalcogenide-based narrowband perfect absorber metasurface can significantly improve the device’s reflection contrast at much lower energies than its mirrorless case. By considering a GST225 metasurface operating in the near IR, our systematic numerical study finds improved reflection contrast (up to −32 dB, Q-factor 19.22 compared with 9.59 dB, Q-factor 11 for the mirrorless case). For the mirrored case, the thermal study finds faster crystallization (up to 6 times) at reduced reconfiguration thresholds (72 times lower) compared with the mirrorless case. This results in a more than 2 orders of magnitude higher device figure of merit [defined as the change in reflection contrast (in dB) to a corresponding change in optical energy (in nJ)] compared with the mirrorless case. The results are promising for high-performance metasurfaces at reduced switching energies.

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Reconfigurable Far-Infrared FSS Filters on Polyimide Substrate

Newton,

Nahar

2023

J Infrared Milli Terahz Waves

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Plasmonic wideband GST‐based switch in the near‐infrared region

Cited by 4 publications

References 38 publications

Terahertz graphene-based multi-functional anisotropic metamaterial and its equivalent circuit model

Terahertz graphene-based multi-functional anisotropic metamaterial and its equivalent circuit model

Optimally designed tunable phase change material-based narrowband perfect absorber

Reconfigurable Far-Infrared FSS Filters on Polyimide Substrate

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