The inverse Faraday effect at Mie resonances
arxiv(2024)
摘要
Nowadays, dielectric nanophotonics enables almost lossless resonant
interaction between light and matter at the nanoscale. We show both
theoretically and by electromagnetic simulations, that the peculiar nature of
Mie-resonance induced effective magnetic fields contrasts sharply with the
optomagnetism of smooth bulk materials. Mie resonances produce strongly
nonuniform effective magnetic fields generated by the inverse Faraday effect.
Different orders of optical resonances are characterized by different types of
the effective magnetic field patterns. The number of point-like inverse Faraday
effect sources can be controlled by adjusting the pump wavelength, allowing for
the selective launch of spin waves with submicron wavelengths. A distinguish
feature of the Mie-resonance-induced effective magnetic fields is the vortex
structure that can be used for the magnetic skyrmion generation. The proposed
approach considerably broadens the scope of nanoscale optomagnetism.
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