2015
DOI: 10.1021/acs.nanolett.5b03051
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Wedge Waveguides and Resonators for Quantum Plasmonics

Abstract: Plasmonic structures can provide deep-subwavelength electromagnetic fields that are useful for enhancing light–matter interactions. However, because these localized modes are also dissipative, structures that offer the best compromise between field confinement and loss have been sought. Metallic wedge waveguides were initially identified as an ideal candidate but have been largely abandoned because to date their experimental performance has been limited. We combine state-of-the-art metallic wedges with integra… Show more

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Cited by 117 publications
(148 citation statements)
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“…A bio-sensor based on a 3D plasmonic slot-waveguide has already been proposed [43], the addition of stub resonators integrated in slot waveguides can further boost the sensor's figure of merit by providing extra knobs to shape the spectral properties. The 3D double-stub resonators can further be utilized in the investigation of light-matter interactions in quantum plasmonic applications via positioning colloidal quantum dot emitters in hotspots within the DS resonator [39]. …”
Section: Discussionmentioning
confidence: 99%
“…A bio-sensor based on a 3D plasmonic slot-waveguide has already been proposed [43], the addition of stub resonators integrated in slot waveguides can further boost the sensor's figure of merit by providing extra knobs to shape the spectral properties. The 3D double-stub resonators can further be utilized in the investigation of light-matter interactions in quantum plasmonic applications via positioning colloidal quantum dot emitters in hotspots within the DS resonator [39]. …”
Section: Discussionmentioning
confidence: 99%
“…Three useful nanoparticle dispersions covering a range of applications 2,10,21 are used in this work.…”
Section: Methodsmentioning
confidence: 99%
“…For instance, metal nanowires does not present a cut-off and the lateral mode confinement is not diffraction limited but given by the nanowire cross-section [123]. Therefore, we expect high coupling efficiency of a dipolar emitter to a metal nanowire [124,125,126,127,128,129,130]. Metal nanowires define 1D plasmonic waveguides with a great potential for integrated optical routing [131].…”
Section: Purcell Factor Near a Plasmonic Waveguidementioning
confidence: 99%