2022
DOI: 10.1002/andp.202100462
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Design of Broadband Plasmon‐Induced Transparency Hybrid Metamaterial Based on the Interaction of the Metal and Dielectric Resonances

Abstract: In this paper, a broadband plasmon-induced transparency (PIT) hybrid metamaterial system (HMS) is realized and numerically demonstrated via the interference between different resonance modes of metal and dielectric resonators. The employed PIT HMS supports a strong near-fired coupling between unit cells consisting of eight TiO 2 nested split rings (dark plasmonic resonators) surrounded by four metal cut wires (bright plasmonic resonators) embedded in the intermediate dielectric layer, and a broad transparency … Show more

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Cited by 6 publications
(3 citation statements)
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References 76 publications
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“…The atoms absorb the energy and jump from | 1 > to | 3 > when a strong pumping beam is supplied, creating a transition channel. [32] Similarly, when a probing light is provided, a transition channel is generated from the metastable energy level | 2 > to the excited energy level | 3 > . The EIT phenomenon is caused by the destructive interference between the two transition channels.…”
Section: Explanation Of Principlementioning
confidence: 99%
“…The atoms absorb the energy and jump from | 1 > to | 3 > when a strong pumping beam is supplied, creating a transition channel. [32] Similarly, when a probing light is provided, a transition channel is generated from the metastable energy level | 2 > to the excited energy level | 3 > . The EIT phenomenon is caused by the destructive interference between the two transition channels.…”
Section: Explanation Of Principlementioning
confidence: 99%
“…[41] As seen in Figure 1b, the dielectric spacer between the top CRFS and the middle layer CPR is transparent material PMMA (relative permittivity 𝛿 PMMA = 2.5, loss tangent tan𝛿 PMMA = 0) [42] with a thickness of h 3 = 10 μm, which is introduced to facilitate the light to change the working state of the CPR. The remaining two layers are quartz substrates (𝛿 quartz = 3.793, tan𝛿 quartz = 0.0008) [23] with intermediate layer thickness h 2 =6 μm and bottom layer thickness h 1 =32 μm. As shown in Figure 1c-f, the four C-shaped dielectric rings as dark plasma resonators are composed of Titanium dioxide (TiO 2 , 𝛿 TiO2 = 114, tan𝛿 TiO2 = 0.00027).…”
Section: Gmst Designmentioning
confidence: 99%
“…In recent years, the rise of the so-called metastructures, [5] that is, metamaterials and metasurfaces, have broken the bottleneck of EIT development. As subwavelength artificial periodic composites, metastructures have unique and exotic physical properties, such as negative refraction [19,20] and electromagnetic polarization manipulation, [21][22][23] which have become the "favorites" of many laboratories. To further miniaturize EIT-related devices, plasmon-induced transparency (PIT) has been proposed.…”
Section: Introductionmentioning
confidence: 99%