Search results for "Near-field"

showing 10 items of 101 documents

Generalized bloch equations for optical interactions in confined geometries

2005

By combining the field-susceptibility technique with the optical Bloch equations, a general formalism is developed for the investigation of molecular photophysical phenomena triggered by nanometer scale optical fields in the presence of complex environments. This formalism illustrate the influence of the illumination regime on the fluorescence signal emitted by a single molecule in a complex environment. In the saturated case, this signal is proportional to the optical local density of states, while it is proportional to the near-field intensity in the non-saturated case. (C) 2005 Elsevier B.V. All rights reserved.

PhysicsMicroscopyLocal density of statesGeneral Physics and AstronomySingle-Molecule SpectroscopyFluorescenceScaleFormalism (philosophy of mathematics)Bloch equationsQuantum mechanicsNear-FieldLight-SourceMoleculeDielectricsMaxwell-Bloch equationsPhysical and Theoretical ChemistryChemical Physics Letters
researchProduct

From Measurement to Control of Electromagnetic Waves using a Near‐field Scanning Optical Microscope

2013

PhysicsOpticsbusiness.industryOptoelectronicsNear-field scanning optical microscopeNear and far fieldbusinessElectromagnetic radiationMeasurements using Optic and RF Waves
researchProduct

Near-field optical response of a two-dimensional grating of gold nanoparticles

2001

Laboratoire de Physique, Optique Submicronique, Universite´de Bourgogne, Boite Postale 47870, F-21078 Dijon, France~Received 1 August 2000; published 4 April 2001!This article reports on the near-field optical response of a small square grating of gold nanoparticles tailoredby electron-beam lithography. The investigation of the grating is aimed at a deepened understanding ofelectromagnetic interaction among particles due to scattered light fields. Therefore, a photon scanning tunnel-ing microscope is applied to acquire near-field optical images. Two different incident wavelengths are used tocharacterize the intensity and the spatial localization of the electromagnetic near field both in and out…

PhysicsPhotonMicroscopebusiness.industryNear-field opticsNear and far fieldGratinglaw.inventionWavelengthOpticslawbusinessPlasmonExcitationPhysical Review B
researchProduct

Simultaneous observation of light localization and confinement in near-field optics

2001

We report on the observation, in direct space, of both light localization and confinement effects near lithographically designed structures. The sample is observed in the optical near-field zone with a Photon Scanning Tunneling Microscope (PSTM). Several patterns composed of a few periods of TiO2 dots, arranged as a hexagonal lattice, have been investigated. When the central dot of the pattern is removed, a phenomenon of light localization above the vacancy can be observed in the PSTM image. The occurrence of this phenomenon can be related to the variation of the electromagnetic local density of state.

PhysicsPhotonbusiness.industryNear-field opticsGeneral Physics and AstronomyCondensed Matter::Mesoscopic Systems and Quantum Hall EffectSpace (mathematics)law.inventionOpticslawVacancy defectDensity of statesNear-field scanning optical microscopeHexagonal latticeScanning tunneling microscopebusinessEurophysics Letters (EPL)
researchProduct

Quasi-isotropic 3-D resolution in two-photon scanning microscopy.

2009

One of the main challenges in three-dimensional microscopy is to overcome the lack of isotropy of the spatial resolution, which results from the axially-elongated shape of the point spread function. Such anisotropy gives rise to images in which significant axially-oriented structures of the sample are not resolved. In this paper we achieve an important improvement in z resolution in two-photon excitation microscopy through spatial modulation of the incident beam. Specifically, we demonstrate that the design and implementation of a simple shaded ring performs quasi-isotropic three-dimensional imaging and that the corresponding loss in luminosity can be easily compensated by most available fe…

PhysicsPoint spread functionbusiness.industryIsotropyResolution (electron density)Physics::OpticsAtomic and Molecular Physics and OpticsOpticsTwo-photon excitation microscopyMicroscopyFemtosecondNear-field scanning optical microscopebusinessImage resolutionOptics express
researchProduct

Dielectric versus topographic contrast in near-field microscopy

1996

Using a fully vectorial three-dimensional numerical approach (generalized field propagator, based on Green's tensor technique), we investigate the near-field images produced by subwavelength objects buried in a dielectric surface. We study the influence of the object index, size, and depth on the near field. We emphasize the similarity between the near field spawned by an object buried in the surface (dielectric contrast) and that spawned by a protrusion on the surface (topographic contrast). We show that a buried object with a negative dielectric contrast (i.e., with a smaller index than its surrounding medium) produces a near-field image that is reversed from that of an object with a posi…

PhysicsSiliconField (physics)RetrievalScatteringbusiness.industrymedia_common.quotation_subjectNear and far fieldDielectricAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsIndexSurfaceScatteringOpticsElectric fieldContrast (vision)Near-field scanning optical microscopeComputer Vision and Pattern RecognitionTensorReconstructionbusinessmedia_commonChannel Wave-Guides
researchProduct

Near-field optics theories

1996

The development of near-field optics theory is reviewed. We first recall that near-field optics is not limited to near-field microscopy. Broadly speaking, it concerns phenomena involving evanescent electromagnetic waves. The importance of such waves was ignored for a long time in optical and surface physics until the emergence of scanning near-field optical microscopes. Taking evanescent waves into account prevents the use of any simple approximation in the set of Maxwell's equations. The various theoretical approaches of near-field optics are discussed from the point of view of their ability to assess evanescent electromagnetic waves. We discuss the main results of the application of the v…

PhysicsSurface scienceMicroscopeEvanescent wavebusiness.industryNear-field opticsPhysics::OpticsGeneral Physics and AstronomyPhysical opticsElectromagnetic radiationlaw.inventionOpticsClassical mechanicslawPoint (geometry)businessReports on Progress in Physics
researchProduct

Resonant optical tunnel effect through dielectric structures of subwavelength cross sections.

1998

We show that optical tunnel effects through elongated structures of subwavelength cross sections can be enhanced by the appropriate structuration of the local dielectric function. Even under total internal reflection, transfer channels can be excited to perform spatially confined photonic transfer between transparent media linked by such subwavelength structures. The optical properties of such systems are analyzed using field susceptibilities, also known as electromagnetic Green's dyadics, which determine both the local density of photon states and the optical transmittance of the system. Green's dyadics obtained by solving numerically a set of dyadic Dyson equations are applied to study th…

PhysicsTotal internal reflectionTunnel effectPhotonOpticsField (physics)business.industryNear-field opticsPhysics::OpticsDielectricPhotonicsbusinessDyadicsPhysical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics
researchProduct

Photonic transfer through subwavelength optical waveguides

1998

Optical tunneling effect through dielectric junctions with subwavelength transverse sizes has been demonstrated some years ago. In this letter, we demonstrate how similar effects can be exploited to perform photonic transfer through a subwavelength optical wave guide (SOW) by structuring its optical index along the direction of propagation. The optical transmittance of the SOW is computed self-consistently in direct space through the numerical solution of a Dyson equation. We apply this scheme to investigate the optical properties of different SOW architectures. Even under total internal reflection, in which the light is coupled to the SOW by an evanescent mode, an efficient optical transfe…

PhysicsTotal internal reflectionbusiness.industryNear-field opticsPhysics::OpticsGeneral Physics and AstronomyMicrostructured optical fiberWaveguide (optics)Slot-waveguideOpticsOptoelectronicsPhotonicsbusinessMicrophotonicsPhotonic crystalEurophysics Letters (EPL)
researchProduct

Modelling Optical Resonators Probed by Subwavelength Sized Optical Detectors

1996

The possibility of mapping the optical field structure inside a Fabry-Perot resonator by using a pointed optical fiber was recently reported [1]. In this contribution, we propose a simulation of such near-field optical experiments by using a two-dimensional self-consistent model. The method based on the discretization of four different domains, i.e. the two mirrors, the glass sample and the tip, allows us a meaningful description of the evolution of the full field pattern when approaching the optical detector. In particular, this computerized work supply a direct illustration of the optical energy tranfer occurring when the tip enters the near-field zone. In this context, different tip desi…

PhysicsWork (thermodynamics)Optical fiberDiscretizationbusiness.industryNear-field opticsPhysics::OpticsContext (language use)Optical fieldSample (graphics)law.inventionResonatorOpticslawbusiness
researchProduct