Interface phenomena refer to the phenomena caused by various physical and chemical
processes occurring at phase interfaces. These phenomena can include adhesion, friction …

Deep subwavelength integration of high-definition plasmonic nanostructures is of key
importance in the development of future optical nanocircuitry for high-speed communication …

A nanoscale layer of chromium or titanium is commonly used in plasmonic nanoantennas to
firmly adhere a gold film to a glass substrate, yet the influence of this layer on the antenna …

The fitting of metal optical properties is a topic that has applications in advanced simulations
of spectroscopy, plasmonics, and optical engineering. In particular, the finite difference time …

The number of eigenmodes in plasmonic nanostructures increases with complexity due to
mode hybridization, raising the need for efficient mode characterization and selection. Here …

Optical nanoantenna is a key component in plasmonic circuitry, which can receive or
transmit an electromagnetic field in the near field of an object (nanomaterials). It has wide …

Plasmonic crystals fabricated with precisely controlled arrays of subwavelength metal
nanostructures provide a promising platform for sensing and imaging of surface binding …

Adhesion layers, required to stabilize metallic nanostructures, dramatically deteriorate the
performances of plasmonic sensors, by severely damping the plasmon modes. In this article …

The near-field resonances of gold bowtie antennae are numerically modeled. Besides the
short-range surface plasmon polariton (SR-SPP) mode along the main axis of the structure …

Gold is one of the most widely used metals for building up plasmonic devices. Although
slightly less efficient than silver for producing sharp resonance, its chemical properties make …