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W3129331581 endingPage "126866" @default.
W3129331581 startingPage "126866" @default.
W3129331581 abstract "We have modeled a novel reconfigurable optical absorber using the array of the rectangular nanoparticle array based on the Metal–DNA–Metal (MDM) structure and discussed the effect of the DNA composite on electric field distribution by switching to “On” and “Off” modes based on low conductivity (LC) or high conductivity (HC) attributes of the material. In this structure, we have assumed a model of the optical absorber which contains four rectangular elements and each element has two rectangular metal sections while they are a sandwich of the DNA composite. This structure is over a SiN substrate and a rectangular gold layer under the substrate is utilized for reducing the transmission in the absorber. At last, we have developed a nonlinear model while the unit cells are not similar and we compared both models of absorbers. We show that by variation of the conductivity of the DNA composite section We will be able to control the resonance frequency and the absorbance quality for the structure at the range of 200–300 THz for wide bandwidth application. We have studied the dimension impacts on reflection and the electric field distribution and clarify how DNA composite material can be used to convey the electric field and control of the phase which is important for the optical cloak." @default.
W3129331581 created "2021-03-01" @default.
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W3129331581 date "2021-06-01" @default.
W3129331581 modified "2023-09-24" @default.
W3129331581 title "Reconfigurable optical rectangular particle array absorber based on metal–DNA–metal structure as a refractive index sensor and optical switch" @default.
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W3129331581 doi "https://doi.org/10.1016/j.optcom.2021.126866" @default.
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