Surface plasmons allow electromagnetic fields to be confined to subwavelength scale, well
beyond the classical optical diffraction limit. With continuous reduction of optical mode …

Micro-/nanofibers (MNFs) are optical fibers with diameters close to or below the wavelength
of the guided light. These tiny fibers can offer engineerable waveguiding properties …

The single-exciton strong coupling with the localized plasmon mode (LPM) at room
temperature is highly desirable for exploiting quantum technology. However, its realization …

Quantum manipulation is challenging in localized-surface plasmon resonances (LSPRs)
due to strong dissipations. To enhance quantum coherence, here we propose to engineer …

Sensors are devices or systems able to detect, measure and convert magnitudes from any
domain to an electrical one. Using light as a probe for optical sensing is one of the most …

Photoactuators have attracted significant interest for soft robot and gripper applications, yet
most of them rely on free-space illumination, which requires a line-of-site low-loss optical …

Optoplasmonic whispering‐gallery‐mode (WGM) microcavities, consisting of plasmonic
nanostructures and optical microcavities, provide excellent platforms for exploring …

Optical microresonators confine light to a particular microscale trajectory, are exquisitely
sensitive to their microenvironment, and offer convenient readout of their optical properties …

Surface plasmon resonance sensors have found wide applications in optical sensing field
due to their excellent sensitivity to the slight refractive index change of surrounding medium …

Introduction: Bioanalytical sensing based on the principle of localized surface plasmon
resonance experiences is currently an extremely rapid development. Novel sensors with …