Add to ORKGAbstract—Here we present the design of a low loss top metal silicon (Si) hybrid dielectric-loaded plasmonic waveguide (TM-SiHDLW) and a compact, high performance optical resonator by numerical simulation based on finite element method. The waveguide adopted a thick (200 nm) top metal stripe structure to yield optimal performance due to reduced Ohmic loss in conductor around the stripe edge/corner. Moreover, a relatively thick (150 nm) dielectric spacer between the Si ridge and the metal stripe was employed to achieve both long propagation length and good field confinement. The effect of a thin (10 nm) silicon nitride (SiNx) layer covering the waveguide which was added for minimizing uncertainties on optical properties of SiHDLW resulting fr...
This thesis prompt a theoretical analysis of the hybrid plasmonic waveguide (HPWG) and a TE-pass pol...
A hybrid plasmonic structure comprising a silicon slot waveguide separated from an inverse metal rid...
In this paper a novel metal-dielectric waveguide structure is proposed to support hybrid long range ...
A hybrid plasmonic waveguide consisting of a high-index dielectric core embedded inside a rectangula...
A metallic coupler is proposed to interface a silicon on insulator (SOI) waveguide with a narrow hyb...
We report the observation of strongly confined plasmon modes in hybridized metal-dielectric slot wav...
Waveguides, in general are used as a means to route photons. Traditional dielectric waveguides, comp...
Recently, plasmonic waveguides have been intensively studied as promising basic building blocks for ...
A finite width dielectric-metal-dielectric (DMD) waveguide placed on a substrate is numerically inve...
Hybrid plasmonic waveguides consisting of a metal plane separated from a high-index medium by a low-...
The rapid growth of nanotechnology leads to the possibility to fabricate ultra compact optical devic...
We have designed, fabricated and characterized surface plasmon waveguides for near infrared light in...
Although photonics offers an attractive solution to the speed limitation of electronics, reducing th...
The guiding properties of a one-dimensional hybrid metal insulator metal (MIM) waveguiding structure...
The characteristics of long-range hybrid plasmonic modes guided by multilayer metal-dielectric plana...
This thesis prompt a theoretical analysis of the hybrid plasmonic waveguide (HPWG) and a TE-pass pol...
A hybrid plasmonic structure comprising a silicon slot waveguide separated from an inverse metal rid...
In this paper a novel metal-dielectric waveguide structure is proposed to support hybrid long range ...
A hybrid plasmonic waveguide consisting of a high-index dielectric core embedded inside a rectangula...
A metallic coupler is proposed to interface a silicon on insulator (SOI) waveguide with a narrow hyb...
We report the observation of strongly confined plasmon modes in hybridized metal-dielectric slot wav...
Waveguides, in general are used as a means to route photons. Traditional dielectric waveguides, comp...
Recently, plasmonic waveguides have been intensively studied as promising basic building blocks for ...
A finite width dielectric-metal-dielectric (DMD) waveguide placed on a substrate is numerically inve...
Hybrid plasmonic waveguides consisting of a metal plane separated from a high-index medium by a low-...
The rapid growth of nanotechnology leads to the possibility to fabricate ultra compact optical devic...
We have designed, fabricated and characterized surface plasmon waveguides for near infrared light in...
Although photonics offers an attractive solution to the speed limitation of electronics, reducing th...
The guiding properties of a one-dimensional hybrid metal insulator metal (MIM) waveguiding structure...
The characteristics of long-range hybrid plasmonic modes guided by multilayer metal-dielectric plana...
This thesis prompt a theoretical analysis of the hybrid plasmonic waveguide (HPWG) and a TE-pass pol...
A hybrid plasmonic structure comprising a silicon slot waveguide separated from an inverse metal rid...
In this paper a novel metal-dielectric waveguide structure is proposed to support hybrid long range ...