This paper reports design and simulation of a tunable highly-efficient reconfigurableplasmonic filter based on MIM waveguides. Simulation results shown that by adjusting structuralparameters, the device can work as a multipurpose optical circuit
We have proposed a novel type of bandpass plasmonic filter consisting of metal-insulator-metal bus w...
A new filter structure and optical field modulator with ultra-high resolution based on plasmonic nan...
The transmission characteristics of the electromagnetic wave are numerically investigated in two-dim...
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-...
In this paper, we present novel mechanisms for tuning and controlling the response of novel plasmoni...
A multipurpose and ultra-compact nanoplasmonic wavelength filter based on stub structure in a metal-...
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...
This article describes the analysis and design of the excitation schemes of the plasmonic angular ri...
This paper reports design and numerical results of an ultra-compact, efficient and tunable plasmonic...
The rapid growth of nanotechnology leads to the possibility to fabricate ultra compact optical devic...
This paper describes numerical results of an ultra-compact and efficient plasmonic cut-off filter ba...
Nanoscale multichannel filter is realized in plasmonic circuits directly, which consists of four pla...
This work proposes a completely new approach for the design of resonant structures aiming at wavelen...
We have proposed a novel type of bandpass plasmonic filter consisting of metal-insulator-metal bus w...
A new filter structure and optical field modulator with ultra-high resolution based on plasmonic nan...
The transmission characteristics of the electromagnetic wave are numerically investigated in two-dim...
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-...
In this paper, we present novel mechanisms for tuning and controlling the response of novel plasmoni...
A multipurpose and ultra-compact nanoplasmonic wavelength filter based on stub structure in a metal-...
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...
This article describes the analysis and design of the excitation schemes of the plasmonic angular ri...
This paper reports design and numerical results of an ultra-compact, efficient and tunable plasmonic...
The rapid growth of nanotechnology leads to the possibility to fabricate ultra compact optical devic...
This paper describes numerical results of an ultra-compact and efficient plasmonic cut-off filter ba...
Nanoscale multichannel filter is realized in plasmonic circuits directly, which consists of four pla...
This work proposes a completely new approach for the design of resonant structures aiming at wavelen...
We have proposed a novel type of bandpass plasmonic filter consisting of metal-insulator-metal bus w...
A new filter structure and optical field modulator with ultra-high resolution based on plasmonic nan...
The transmission characteristics of the electromagnetic wave are numerically investigated in two-dim...
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