Highly confined guiding of low-loss plasmon waves in hybrid metal-dielectric slot waveguides

Abstract: We report the observation of strongly confined plasmon modes in hybridized metal-dielectric slot waveguides, which consist of semiconductor-insulator-semiconductor nanostructures embedded inside the low-index gaps of conventional hybrid plasmonic configurations. Owing to the combined effects induced by the high-refractive-index-contrast dielectric slot and semiconductor-insulator-metal configurations, tight field localization (Aeff ~ λ(2)/1250-λ(2)/55) in conjunction with large propagation distances (L ~ 70-18… Show more

“…a and b). This observation is typical in one dimensional (1D) semiconductor NWs and is because of the confinement of polarized light within the material, due to variation of refractive index of NWs and its surrounding media. The optical image of the mono‐dispersed AlGaN NW with a separation of ∼2 μm, using an objective of 100× with N.A.…”

Far field photoluminescence imaging of single AlGaN nanowire in the sub‐wavelength scale using confinement of polarized light

“…a and b). This observation is typical in one dimensional (1D) semiconductor NWs and is because of the confinement of polarized light within the material, due to variation of refractive index of NWs and its surrounding media. The optical image of the mono‐dispersed AlGaN NW with a separation of ∼2 μm, using an objective of 100× with N.A.…”

Far field photoluminescence imaging of single AlGaN nanowire in the sub‐wavelength scale using confinement of polarized light

“…Surface plasmon polaritons (SPPs) are the electromagnetic excitations propagating along the interface between a dielectric and metal surface [14]. As the plasmons propagate on metal surface, it suffers the inferent absorption of metal, which is represented by the imaginary parts of the optical indices, which should be as small as possible to avoid impairing the performance in most applications for highly integrated photonic circuits, such as plasmonic waveguide [15], filter [16], nanofocusing [17], and nanosensor [18]. In contrast, the absorption loss should be as high as possible for the electromagnetic wave absorbers.…”

Dual-band near-infrared plasmonic perfect absorber assisted by strong coupling between bright-dark nanoresonators

“…3 In order to overcome this disadvantage, the hybrid plasmonic waveguide (HPWG) with integrated plasmonic and optical modes is proposed and studied theoretically and experimentally. 4,5 Owing to providing highly-confined mode with a long propagation distance of HPWG, a number of modified plasmonic waveguiding structures based on HPWG including wedge HPWG, 6,7 slot HPWG, 8,9 and ridge HPWG 10,11 are further investigated. Although these modified HPWG structures are capable of squeezing electromagnetic modes in a nanoscale area and maintaining long transmission, there is also a huge demand for further reducing their mode area and hence achieving a deeper subwavelength confinement.…”

Hybrid rib-slot-rib plasmonic waveguide with deep-subwavelength mode confinement and long propagation length