2001
DOI: 10.1103/physrevlett.86.4950
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Optical Analogy to Electronic Quantum Corrals

Abstract: We describe full multiple-scattering calculations of localized surface photonic states set up by lithographically designed nanostructures made of a finite number of dielectric pads deposited on a planar surface. The method is based on a numerical solution of the dyadic Dyson's equation. When the pads are arranged to form a closed circle, we find field patterns that look like the electronic charge density recently observed above quantum corrals. We propose two experimental techniques that could be used to obser… Show more

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Cited by 100 publications
(92 citation statements)
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“…Using quantum mechanical simulations of the electron probability density, including the perturbing potential of the tip, we could reproduce the main experimental features and demonstrate the relationship between conductance maps and electron probability density maps. Hence, one can view SGM as the analog of STM for imaging the electronic LDOS in open mesoscopic systems buried under an insulating layer, or the counterpart of the near-field scanning optical microscope that images the photonic LDOS in confined nanostructures [19]. …”
mentioning
confidence: 99%
“…Using quantum mechanical simulations of the electron probability density, including the perturbing potential of the tip, we could reproduce the main experimental features and demonstrate the relationship between conductance maps and electron probability density maps. Hence, one can view SGM as the analog of STM for imaging the electronic LDOS in open mesoscopic systems buried under an insulating layer, or the counterpart of the near-field scanning optical microscope that images the photonic LDOS in confined nanostructures [19]. …”
mentioning
confidence: 99%
“…For this purpose, we now establish a relationship between 2D and 3D LDOS by introducing Green's dyad formalism. First, the 3D-LDOS is related to the 3D Green's tensor G of the system (Im and T r refer to the imaginary part and trace) [17] ρ(r) = − k 2 0 πω ImT rG(r, r) .…”
mentioning
confidence: 99%
“…It is an intrinsic electromagnetic quantity of the object, independent on the excitation process. For instance the local density of mode is given by [24,25] …”
Section: Green's Dyadic Techniquementioning
confidence: 99%