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Your search keyword '"Razmjooei, Nasrin"' showing total 27 results
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27 results on '"Razmjooei, Nasrin"'

1. Steering line waves at a dual metasurface for optical applications

Author

Ahmadi, Haddi, Ahmadi, Zahra, Razmjooei, Nasrin, and Khavasi, Amin

Subjects
Physics - Optics
Abstract

Line waves are defined as confined edge modes propagating at the interface of dual electromagnetic metasurfaces that preserve mirror reflection symmetries. Previous works have theoretically and practically explored these waves, showing that they occur at microwave regimes and terahertz ranges. It is also demonstrated that line waves can happen when there is a symmetric resistance discontinuity from negative to positive values and a uniform surface reactance. Line waves are of tunable mode confinement, direction-dependent polarizations, and singular field enhancement. This study presents a graphene patch design and demonstrates that the line waves associated with this structure can travel in the optical domain. Our design consists of a graphene metasurface on an epsilon near zero (ENZ) substrate. While our approach considers both dual reactive impedances and homogenous reactive ones, we only concentrate on line wave utilization in a dual-impedance structure., Comment: I am not sure about the quality of the work

Published
2022

2. Perfectly-reflecting guided-mode-resonant photonic lattices possessing Mie modal memory

Author

Ko, Yeong Hwan, Razmjooei, Nasrin, Hemmati, Hafez, and Magnusson, Robert

Subjects
Physics - Optics
Abstract

Resonant periodic nanostructures provide perfect reflection across small or large spectral bandwidths depending on the choice of materials and design parameters. This effect has been known for decades, observed theoretically and experimentally via one-dimensional and two-dimensional structures commonly known as resonant gratings, metamaterials, and metasurfaces. The physical cause of this extraordinary phenomenon is guided-mode resonance mediated by lateral Bloch modes excited by evanescent diffraction orders in the subwavelength regime. In recent years, hundreds of papers have declared Fabry-Perot or Mie resonance to be basis of the perfect reflection possessed by periodic metasurfaces. Treating a simple one-dimensional cylindrical-rod lattice, here we show clearly and unambiguously that Mie resonance does not cause perfect reflection. In fact, the spectral placement of the Bloch-mode-mediated zero-order reflectance is primarily controlled by the lattice period by way of its direct effect on the homogenized effective-medium refractive index of the lattice. In general, perfect reflection appears away from Mie resonance. However, when the lateral leaky-mode field profiles approach the isolated-particle Mie field profiles, the resonance locus tends towards the Mie resonance wavelength. The fact that the lattice fields remember the isolated particle fields is referred here as Mie modal memory. On erasure of the Mie memory by an index-matched sublayer, we show that perfect reflection survives with the resonance locus approaching the homogenized effective-medium waveguide locus. The results presented here will aid in clarifying the physical basis of general resonant photonic lattices., Comment: 9 pages, 5 figures

Published
2020
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11. Properties and principles of resonant optical lattices

Author

Magnusson, Robert, primary, Ko, Yeong Hwan, additional, Razmjooei, Nasrin, additional, Lee, Kyu Jin, additional, Abdullah Simlan, Fairooz, additional, Chen, Ren-Jie, additional, Buchanan-Vega, Joseph, additional, Bootpakdeetam, Pawarat, additional, and Gupta, Neelam, additional

Published
2022
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