Add to ORKGAbstract:- When the metallic and nonmetallic nanoellipsoidal interacts with the optical wave at a special frequency, they show some interesting nanocapacitorial characteristics. As a result, this system behaves as nanocircuit. The first part of this article concerns the calculation of effective impedance. Then the parameter of capacitor and inductor is specified by impedance. we study dependence of parameter of capacitor and inductor to direction of optical wave and dimensions of nanoellipsoidal
A form of optical circuitry is overviewed in which a tapestry of subwavelength nanometer-scale metam...
Impedance matching refers to the suppression of reflected radiation from an interface and is a conce...
The International Technology Roadmap for Semiconductors (ITRS) projects that the spatial resolution ...
Following our recent idea of using plasmonic and nonplasmonic nanoparticles as nanoinductors and nan...
Plasmonic nanostructures can be described by equivalent impedance, allowing the analysis of their pr...
Here we explore the radiation features of optical nanoantennas, analyzing the concepts of optical in...
We apply the optical nanocircuit concepts to model and design optical nanofilters in realistic plasm...
We present the concept of circuit nanoelements in the optical domain using plasmonic and nonplasmoni...
In the first part of the dissertation we provide electrical circuit descriptions for bulk plasmons, ...
Metal-insulator-metal (MIM) capacitors play an important part in many integrated electronic circuits...
A form of optical circuitry is overviewed in which a tapestry of subwavelength nanometer-scale metam...
The inset image shows the higher frequency region, and the equivalent circuit for the best-fitted cu...
We present a local capacitor model that enables a simple yet quantitatively accurate description of ...
A metasurface made of a collection of nanoresonators characterized by an electric dipole and a magne...
Nanoantennas are key optical components that bridge nanometer-scale optical signals to far-field, fr...
A form of optical circuitry is overviewed in which a tapestry of subwavelength nanometer-scale metam...
Impedance matching refers to the suppression of reflected radiation from an interface and is a conce...
The International Technology Roadmap for Semiconductors (ITRS) projects that the spatial resolution ...
Following our recent idea of using plasmonic and nonplasmonic nanoparticles as nanoinductors and nan...
Plasmonic nanostructures can be described by equivalent impedance, allowing the analysis of their pr...
Here we explore the radiation features of optical nanoantennas, analyzing the concepts of optical in...
We apply the optical nanocircuit concepts to model and design optical nanofilters in realistic plasm...
We present the concept of circuit nanoelements in the optical domain using plasmonic and nonplasmoni...
In the first part of the dissertation we provide electrical circuit descriptions for bulk plasmons, ...
Metal-insulator-metal (MIM) capacitors play an important part in many integrated electronic circuits...
A form of optical circuitry is overviewed in which a tapestry of subwavelength nanometer-scale metam...
The inset image shows the higher frequency region, and the equivalent circuit for the best-fitted cu...
We present a local capacitor model that enables a simple yet quantitatively accurate description of ...
A metasurface made of a collection of nanoresonators characterized by an electric dipole and a magne...
Nanoantennas are key optical components that bridge nanometer-scale optical signals to far-field, fr...
A form of optical circuitry is overviewed in which a tapestry of subwavelength nanometer-scale metam...
Impedance matching refers to the suppression of reflected radiation from an interface and is a conce...
The International Technology Roadmap for Semiconductors (ITRS) projects that the spatial resolution ...