Near-field Optics: Principles and Applications : the Second Asia-Pacific Workshop on Near Field Optics, Beijing, China, October 20-23, 1999
Near-field optics, dealing with the interaction between optical field and matter in the nanometric region, has become an interdisciplinary field spaning physics, chemistry, materials science, electrical engineering and high density data storage. This book reflects the recent status of this rapidly growing field. It discusses the basic theories, instrumentation, novel probes, theoretical simulations, and the application of near-field optics to the fields of condensed matter physics, new materials, information storage, atom photonics, etc. It provides an overview of the research on near-field optics in the 1990s.
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antenna aperture Appl atom axis C-mode calculated cantilever chemical coated coupling detection diameter dielectric diffraction limit dipole disk DNA molecule electric field electromagnetic electromigration evanescent field excitation experimental fabricated far-field FDTD fibre field optical Figure fluorescence fluorescence image focused gallery modes GeSbTe Green's function I-mode illumination InGaP integral equation intensity distribution interaction layer lens Lett light measured mesoscopic metal method microdisk microlens nanometric near-field intensity near-field optical image near-field optical microscope near-field scanning optical NSOM numerical simulation observed obtained optical microscope optical near field oxide oxygen p-polarization particle peak photon photon scanning tunneling Phys piezoelectric polarization probe tip propagating PSTM radiation Raman spectroscopy ratio refractive index resonance sample surface scanning near-field optical scanning optical microscopy scanning tunneling microscope scattering self-consistent shown in Fig shows signal sphere substrate super-RENS super-resolution technique tip-sample distance topographic images transmission voltage Wang wave waveguide wavelength