With an index of refraction approaching 9 at microwave frequencies, water is a high-index dielectric material suitable for studying morphology-dependent resonance (MDR) analogs of metallic plasmonic hotspots. We use experimental, analytical, and computational approaches to study MDRs in aqueous dimers, paying particular attention to formation of evanescent axial hotspots. We use hydrogel beads and thermal imaging, along with FEM simulations to explore polarization, orientation, and size-dependence in MDR hybridization. A novel analytical approach involving vectorial addition of spherical harmonics of monomer MDRs provides geometric insight into which modes most strongly interact to yield strong subwavelength electromagnetic hotspots in aqueous bispheres.
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