Nanowires supporting propagating surface plasmons can function as nanowaveguides to
realize the light guiding with field confinement beyond the diffraction limit, providing …

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 …

Nanowires are one-dimensional (1D) nanostructures with comparatively large aspect ratios,
which can be useful in manipulating electrons, photons, plasmons, phonons, and atoms for …

An analytical model for plasmon modes in graphene-coated dielectric nanowire is
presented. Plasmon modes could be classified by the azimuthal field distribution …

We consider the phase-transition-like behavior in the Rabi model containing a single two-
level system, or qubit, and a single harmonic oscillator. The system experiences a sudden …

As typical one‐dimensional nanostructures for waveguiding tightly confined optical fields
beyond the diffraction limit, metal nanowires have been used as versatile nanoscale …

The development of quantum plasmonic circuitry requires efficient coupling between
quantum emitters and plasmonic waveguides. A major experimental challenge is to …

Ultrafast interfacing of electrical and optical signals at the nanoscale is highly desired for on-
chip applications including optical interconnects and data processing devices. Here, we …

Metallic and plasmonic nanolasers have attracted growing interest recently. Plasmonic
lasers demonstrated so far operate in hybrid photon-plasmon modes in transverse …

The two-dimensional perovskites are emerging as an excellent material platform for various
optoelectronic devices such as solar cells, lasers, and photodetectors. Here, by combining …