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Background Next-generation sequencing and ‘omics’ platforms are used extensively in plant biology research to unravel new genomes and study their interactions with abiotic and biotic agents in the growth environment. Despite the availability of a large and growing number of genomic data sets, there are only limited resources providing highly-curated and up-to-date metabolic and regulatory networks...
We have developed a new mode matching technique capable of accurate numerical computation of wave coupling in arrays of planar structures. The algorithm is illustrated on several examples of plasmonic and volumetric waveguides.
We demonstrate that enhanced electro-optical effect in plasmonic microstructures is accompanied by dramatically reduced parasitic scattering of surface waves. Analytical description of relevant physics and implications for creation of high-performance dynamical plasmonic circuits are discussed
We develop an approach to utilize anisotropic metamaterials to solve the fundamental problem of parasitic scattering of surface waves into freespace modes, paving the way for purely 2D optics.
We develop an approach to utilize anisotropic metamaterials to solve the fundamental problem of parasitic scattering of surface waves into freespace modes, paving the way for purely 2D optics.
We demonstrate that the majority pf plasmonic nanolayered composites, despite being subwanelength, are not described by effective medium theory and develop an adequate description of electromagnetism in these systems.
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