Add to ORKGWe present a comparative study of nanoantennas for maximum power enhancements at their feed gaps. Due to frequency-dependent plasmonic properties of metals at optical frequencies, removing the frequency-size relationship used in perfectly conducting models, two-dimensional analysis involving both frequency and geometric scaling is performed to accurately assess the performances of different geometries. Computationally intensive simulations involving thousands of full-wave solutions are carried out by employing surface integral equations and the multilevel fast multipole algorithm. Tens of different structures, which demonstrate diverse enhancement properties, are considered and compared with each other. Numerical simulations show favorable ...
The frequency dependent complex permittivity of plasmonic materials is one of the most decisive para...
Nanoantennas are used to control light on the nanoscale in a wide range of applications. However, th...
The research area of plasmonics promises devices with ultrasmall footprint operating at ultrafast sp...
We present multiband nanoantennas that can provide large enhancement factors at multiple frequencies...
A rigorous analysis of nanoantennas using surface integral equations and the multilevel fast multipo...
We present computational analysis of nanoantenna arrays for imaging and sensing applications at opti...
In this paper, the optimum behaviour of optical nanoantennas, in terms of impedance, directivity, av...
In this paper, the optimum behaviour of optical nanoantennas, in terms of impedance, directivity, av...
Nanometer-scale plasmonic structures have a wide variety of applications in optics and photonics, wi...
Optical antennas are metal nano structures that convert strongly localized energy into radiation and...
Metallic nanosctructures possess electromagnetic properties useful for various applications, such as...
Surface plasmon-enhanced gold nanoantenna structures on glass substrate are studied for increased lo...
Metallic nanosctructures possess electromagnetic properties useful for various applications, such as...
Optimization of the geometry of a metallic bowtie gap at radio frequency is presented. We investigat...
Surface plasmons are elementary excitations of the collective and coherent oscillations of conductiv...
The frequency dependent complex permittivity of plasmonic materials is one of the most decisive para...
Nanoantennas are used to control light on the nanoscale in a wide range of applications. However, th...
The research area of plasmonics promises devices with ultrasmall footprint operating at ultrafast sp...
We present multiband nanoantennas that can provide large enhancement factors at multiple frequencies...
A rigorous analysis of nanoantennas using surface integral equations and the multilevel fast multipo...
We present computational analysis of nanoantenna arrays for imaging and sensing applications at opti...
In this paper, the optimum behaviour of optical nanoantennas, in terms of impedance, directivity, av...
In this paper, the optimum behaviour of optical nanoantennas, in terms of impedance, directivity, av...
Nanometer-scale plasmonic structures have a wide variety of applications in optics and photonics, wi...
Optical antennas are metal nano structures that convert strongly localized energy into radiation and...
Metallic nanosctructures possess electromagnetic properties useful for various applications, such as...
Surface plasmon-enhanced gold nanoantenna structures on glass substrate are studied for increased lo...
Metallic nanosctructures possess electromagnetic properties useful for various applications, such as...
Optimization of the geometry of a metallic bowtie gap at radio frequency is presented. We investigat...
Surface plasmons are elementary excitations of the collective and coherent oscillations of conductiv...
The frequency dependent complex permittivity of plasmonic materials is one of the most decisive para...
Nanoantennas are used to control light on the nanoscale in a wide range of applications. However, th...
The research area of plasmonics promises devices with ultrasmall footprint operating at ultrafast sp...