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Optical imaging

The advent of near-infrared fluorescence (NIRF) molecular imaging, coupled with optical contrast agents or fluorescent probes, has enhanced the sensitivity of in vivo [Pg.55]

Campagnola P J, Wei M D, Lewis A and Loew L M 1999 High-resolution nonlinear optical imaging of live cells by second harmonic generation Biophys. J. 77 3341-9... [Pg.1305]

Kopelman R and Tan W 1993 Near-field optics imaging single molecules Science 262 1382-4... [Pg.2505]

AbbUd, n. copy, image, likeness, abbilden, v.t. portray, copy, model focus describe, represent. — abbildend, p.a. portraying, etc. (Optics) image-forming. [Pg.1]

Abbildungt /. illustration, cut representation, portrait, copy (Optics) image formation, also image. [Pg.1]

Most disease-specific molecular and cellular processes involve low concentrations and have low capacities. Therefore, molecular imaging requires highly sensitive imaging modalities to detect and quantify the imaging probes as it is done with short-lived radioisotopes. Optical imaging and ultrasound are next in sensitivity. MRI would require too high contrast agent concentrations... [Pg.1325]

The performance of an optical imaging system is quantified by a point-spread function (PSF) or a transfer function. In astronomy we image spatially incoherent objects, so it is the intensity point-spread function that is used. The image is given by a convolution of the object 0, r]) with the PSF... [Pg.8]

Viennot, L, Kaminski, W. (2006). Can we evaluate the impact of a critical detail The role of a type of diagram in understanding optical imaging. International Journal of Science Education, 28(15), 1867-1885. [Pg.74]

Licha K (2002) Contrast Agents for Optical Imaging. 222 1-29 Linclau B,see Maul JJ (1999) 206 79-105... [Pg.203]

Fig. 1. Optical image and SEM micrographs of a single cell (a) the SDC electrolyte surface view (b) LSM-SDC-NiSDC cross view. Fig. 1. Optical image and SEM micrographs of a single cell (a) the SDC electrolyte surface view (b) LSM-SDC-NiSDC cross view.
The technique employs a beam of swift (-500kV) electrons grazing the surface of interest. Provided that the beam is accurately aligned along a crystal zone axis, and that the electron-optical imaging system is adequate, then images are obtained which appear to show the atomic surface structure in profile (see Figure 1). [Pg.342]

OS 90] [R 31] [P 70] At weak electrical field, the propagation velocity of a reaction front in a capillary-flow reactor was increased or decreased depending on the mutual orientation of the electrical field and the reaction zone propagation [68]. The movement of two reaction fronts was given by optical images in [68]. [Pg.557]

Near-Field Optical Imaging of Localized Plasmon Resonances in Metal Nanoparticles... [Pg.39]

Okamoto, H. and Imura, K (2008) Nearfield optical imaging of nanoscale optical fields and plasmon waves. Jpn. J. Appl. Phys., 47, 6055-6062. [Pg.53]

Near-field optical imaging of plasmon modes in gold nanorods. J. Chem. Phys., 122, 154701 (5 pages). [Pg.53]

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3D-three dimensional dynamic image analysis system optical sectioning and outlining

All-Optical Image Processing

Bioluminescence imaging tissue optics

Colored image, optical density

Dark field imaging optical microscopy

Deep-tissue optical imaging

Electro-optic image storage

Fiber optic systems Medical imaging

Goss optical microscopic images

Image formation by a thin lens in terms of Fourier optics

Image formation by an optical microscope

Image optical transmission

Image-contrasting optics

Imaging modes, optical

Imaging modes, optical microscop

Imaging modes, optical microscopy

Imaging optical coherence tomography

Imaging optical systems

Imaging the PS Layer Surface with an Optical Profilometer

Intrinsic signal optical imaging

Microscope: electron 221 image optical

Molecular imaging, optically active

Near-Field Optical Imaging of Localized Plasmon Resonances in Metal Nanoparticles

Nonimaging and Imaging Optical Concentrators

Nonlinear optical imaging

Nonlinear optical imaging important processes

Optic disc, imaging

Optical Coherence Imaging

Optical breast imaging

Optical feedback imaging

Optical image 398 INDEX

Optical image correlation

Optical image formation

Optical image spectroscopy

Optical image storage

Optical images

Optical images

Optical imaging 340 Subject

Optical imaging Organic substrate

Optical imaging interference optics

Optical imaging oxidization

Optical imaging techniques

Optical imaging with collinear

Optical imaging with fluorescence probes

Optical imaging, gene expression

Optical interference images

Optical microscope images

Optical molecule imaging

Optical sensor reflectance image

Optically transparent electrode optical image

Phase contrast imaging optical microscopy

Poly optical microscope images

Poly optical microscopy image

Quartz optically transparent optical image

Scanning near-field optical microscopy imaging

Spherulites polarized optical image

Ultrafast optical imaging

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