This letter describes design and numerical simulation of an extremely-compact and efficient high-pass plasmonic filter based on MIM waveguides. Numerical results shown that by tuning structural parameters, desired cut-off wavelengths can be chosen
The light sensors market is growing, driven largely by increased use of proximity detection and ambi...
Rapid advances in image sensor technology have generated a mismatch between the small size of image ...
Absorption spectroscopy in the long wave infrared provides an effective method for identification of...
This letter describes design and numerical simulation of an extremely-compact and efficient high-pas...
This letter presents design and simulation results of a highly-efficient and compact plasmonic high-...
This paper reports design and simulation of a tunable highly-efficient reconfigurableplasmonic filte...
A multipurpose and ultra-compact nanoplasmonic wavelength filter based on stub structure in a metal-...
A miniaturized and efficient tunable wide flat-top band-pass filter at NIR is proposed in a MIM plas...
This paper describes numerical results of an ultra-compact and efficient plasmonic cut-off filter ba...
A highly efficient and compact wide flat-top band-pass filter at NIR is realized in a MIM plasmonic ...
This paper reports design and numerical results of an ultra-compact, efficient and tunable plasmonic...
A plasmonic filter including Metal-Insulator-Metal waveguides (MIM) with an elliptical ring resonato...
We report the design and numerical results of a miniaturized and efficient plasmonic cut-off filter ...
Manipulating light at nano-scale is usually shadowed by the diffraction limit. Recently, plasmonics ...
Plasmonic waveguides that allow deeply subwavelength confinement of light provide an effective platf...
The light sensors market is growing, driven largely by increased use of proximity detection and ambi...
Rapid advances in image sensor technology have generated a mismatch between the small size of image ...
Absorption spectroscopy in the long wave infrared provides an effective method for identification of...
This letter describes design and numerical simulation of an extremely-compact and efficient high-pas...
This letter presents design and simulation results of a highly-efficient and compact plasmonic high-...
This paper reports design and simulation of a tunable highly-efficient reconfigurableplasmonic filte...
A multipurpose and ultra-compact nanoplasmonic wavelength filter based on stub structure in a metal-...
A miniaturized and efficient tunable wide flat-top band-pass filter at NIR is proposed in a MIM plas...
This paper describes numerical results of an ultra-compact and efficient plasmonic cut-off filter ba...
A highly efficient and compact wide flat-top band-pass filter at NIR is realized in a MIM plasmonic ...
This paper reports design and numerical results of an ultra-compact, efficient and tunable plasmonic...
A plasmonic filter including Metal-Insulator-Metal waveguides (MIM) with an elliptical ring resonato...
We report the design and numerical results of a miniaturized and efficient plasmonic cut-off filter ...
Manipulating light at nano-scale is usually shadowed by the diffraction limit. Recently, plasmonics ...
Plasmonic waveguides that allow deeply subwavelength confinement of light provide an effective platf...
The light sensors market is growing, driven largely by increased use of proximity detection and ambi...
Rapid advances in image sensor technology have generated a mismatch between the small size of image ...
Absorption spectroscopy in the long wave infrared provides an effective method for identification of...
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