Abstract
Optical scattering process is of fundamental importance for manipulating light–matter interaction at the subwavelength scale. Dielectric nanoparticles with high refractive index have been a long-proven candidate for supporting optical Mie resonances and are recently regaining considerable attention thanks to a combination of their low-loss property as well as the compatibility with modern micro-/nanoprocessing technologies. Changing the surrounding environment of nanoparticles can exert great influence on the scattering behaviors, especially in the case of plasmonic particles, whose ability to sensitively detect index change has been well implemented in the field of optical sensing. However, few reports can be found scrutinizing the detailed mechanism concerning dielectric nanoparticles, and the systematic research on how surrounding environment can shape their scattering behaviors remains largely uncharted waters. Therefore, it is necessary to elucidate to what extent can surrounding environment affect t...
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