Staude, IsabelleDecker, ManuelFofang, Nche TLiu, ShengGonzales, EdwardDominguez, JasonLuk, Ting ShanNeshev, DragomirBrener, IgalMiroshnichenko, AndreyKivshar, Yuri2015-12-131936-086Xhttp://hdl.handle.net/1885/74951Interference of optically induced electric and magnetic modes in high-index all-dielectric nanoparticles offers unique opportunities for tailoring directional scattering and engineering the flow of light. In this article we demonstrate theoretically and eKeywords: Backward scattering; Electric resonance; Frequency domain simulation; Nanoantennas; Nanodisks; Resonant scattering; Scattering pattern; Transmittance spectra; Aspect ratio; Forward scattering; Interference suppression; Magnetic resonance; Nanoparticles; S all-dielectric nanoantennas; directional scattering; magnetic resonance; nanodisks; resonant scatteringTailoring directional scattering through magnetic and electric resonances in subwavelength silicon nanodisks201310.1021/nn402736f2016-02-24