Add to ORKGWe present the concept of circuit nanoelements in the optical domain using plasmonic and nonplasmonic nanoparticles. Three basic circuit elements, i.e., nanoinductors, nanocapacitors, and nanoresistors, are discussed in terms of small nanostructures with different material properties. Coupled nanoscale circuits and parallel and series combinations are also envisioned, which may provide road maps for the synthesis of more complex circuits in the IR and visible bands. Ideas for the optical implementation of right-handed and left-handed nanotransmission lines are also forecasted
Naturally available optical materials are known to provide a wide variety of electric responses, spa...
We outline the differences between the nanocircuits derived from the dipole and the Mie theories, re...
Here we present an overview of our recent works on metaplasmonic-based structures, devices, and opti...
We present the concept of circuit nanoelements in the optical domain using plasmonic and nonplasmoni...
Following our recent idea of using plasmonic and nonplasmonic nanoparticles as nanoinductors and nan...
A form of optical circuitry is overviewed in which a tapestry of subwavelength nanometer-scale metam...
A form of optical circuitry is overviewed in which a tapestry of subwavelength nanometer-scale metam...
A form of optical circuitry is overviewed in which a tapestry of subwavelength nanometer-scale metam...
Optical nanocircuits may pave the way to transformative advancements in nanoscale communications. We...
Nanoantennas are key optical components that bridge nanometer-scale optical signals to far-field, fr...
The anomalous interaction of light with plasmonic materials has fascinated scientists and non-scient...
Connecting lumped circuit elements in a conventional circuit is usually accomplished by conducting w...
We theoretically and numerically study the design of optical lumped nanofiltering devices in the f...
We present here an analytical quasi-static circuit model for the coupling among small nanoparticles ...
For all applications of plasmonics to technology it is required to tailor the resonance to the optic...
Naturally available optical materials are known to provide a wide variety of electric responses, spa...
We outline the differences between the nanocircuits derived from the dipole and the Mie theories, re...
Here we present an overview of our recent works on metaplasmonic-based structures, devices, and opti...
We present the concept of circuit nanoelements in the optical domain using plasmonic and nonplasmoni...
Following our recent idea of using plasmonic and nonplasmonic nanoparticles as nanoinductors and nan...
A form of optical circuitry is overviewed in which a tapestry of subwavelength nanometer-scale metam...
A form of optical circuitry is overviewed in which a tapestry of subwavelength nanometer-scale metam...
A form of optical circuitry is overviewed in which a tapestry of subwavelength nanometer-scale metam...
Optical nanocircuits may pave the way to transformative advancements in nanoscale communications. We...
Nanoantennas are key optical components that bridge nanometer-scale optical signals to far-field, fr...
The anomalous interaction of light with plasmonic materials has fascinated scientists and non-scient...
Connecting lumped circuit elements in a conventional circuit is usually accomplished by conducting w...
We theoretically and numerically study the design of optical lumped nanofiltering devices in the f...
We present here an analytical quasi-static circuit model for the coupling among small nanoparticles ...
For all applications of plasmonics to technology it is required to tailor the resonance to the optic...
Naturally available optical materials are known to provide a wide variety of electric responses, spa...
We outline the differences between the nanocircuits derived from the dipole and the Mie theories, re...
Here we present an overview of our recent works on metaplasmonic-based structures, devices, and opti...