<? pag\vskip-16pt?> Harnessing linear and angular momenta of light is one of the
cornerstones in modern optics and has found tremendous applications in optical circuits …

Optical tweezers and associated manipulation tools in the far field have had a major impact
on scientific and engineering research by offering precise manipulation of small objects …

Optical tweezers employing forces produced by light underpin important manipulation tools
employed in numerous areas of applied and biological physics. Conventional optical …

Transparent conductive electrodes, as transmission windows of photons and electrons, play
important roles in high‐performance organic optoelectronic devices. The replacement of …

In the past decade, optical orbital angular momentum (OAM) has entered the field of
plasmonics in the form of surface-confined vortices, generating vast interest. Here we give …

Propulsive effects of light, which often remain unnoticed in our daily-life experience, manifest
themselves on spatial scales ranging from subatomic to astronomical. Light-mediated forces …

The spectacular physical phenomenon of surface plasmon resonance (SPR) is the essence
of present‐day plasmonic sensors. Meanwhile, the unique properties of the interaction …

Specialized electromagnetic fields can be used for nanoparticle manipulation along a
specific path, allowing enhanced transport and control over the particle's motion. In this …

We propose a novel approach to generating optical pulling forces on a gold nanowire, which
are placed inside or above a hyperbolic metamaterial and subjected to plane wave …

Optical tweezers revolutionized the manipulation of nanoscale objects. Typically, tunable
manipulations of optical tweezers rely on adjusting either the trap** laser beams or the …