Interaction between light and magnetism in magneto-optical (MO) nanophotonic devices has
been actively studied in the past few years. The recent development of MO all-dielectric …

The study of magneto-optical absorption has stimulated diverse energy-technology-related
explorations, showing potential in breaking the current theoretical efficiency limits of energy …

Surface modes at interfaces, especially, the surface plasmon polaritons at metal-dielectric
interfaces localize field. Associated applications are well pursued in addition to their basic …

This Perspective surveys the state-of-the-art and future prospects of science and technology
employing nanoconfined light (nanophotonics and nanoplasmonics) in combination with …

Magnetic nanostructures sustaining different types of optical modes have been used for
magnetometry and label-free ultrasensitive refractive index probing, where the main …

The discovery of quasicrystals (awarded with the 2011 Nobel Prize in Chemistry) generated
a revolutionary impact on crystallography, and hence a plethora of structural topics across a …

All-dielectric nanophotonic devices are promising candidates for future lossless (bio)
sensing and telecommunication applications. Active all-dielectric magnetophotonic devices …

Magnetoplasmonics is an emerging interdisciplinary field that studies the interaction
between magnetism and plasmonics, and has great promise for the development of novel …

In previous decades, significant efforts have been devoted to increasing the magneto-optical
efficiency of iron garnet materials for the miniaturization of nonreciprocal devices such as …

The transverse magneto-optical Kerr effects (T-MOKEs) and sensing performance in a
magneto-optical surface plasmon resonance (MOSPR) structure comprising a nanoporous …