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Magnetic resonance microscopy imaging

Rombaoh K, Laukemper-Ostendorf and Blumler P 1998 Applioations of NMR flow imaging in materials soienoe Spatially Resolved Magnetic Resonance, Proc. 4th Int. Cent, on Magnetic Resonance Microscopy and Macroscopy ed P Blumler, B Blumioh, R E Botto and E Fukushima (Weinheim Wiley-VCFI) pp 517-29... [Pg.1546]

P. T. Callaghan 1994, Principles of Nuclear Magnetic Resonance Microscopy, Clarendon Press, Oxford, 490 pp. Standard reference textbook for imaging, some examples but with a focus on theory. [Pg.44]

Bonny, J.M., Rouille, J., Della Valle, G., Devaux, M.F., Douliez, J.P., and Renou, J.P. 2004. Dynamic magnetic resonance microscopy of flour dough fermentation. Magn. Reson. Imaging 22, 395-401. [Pg.257]

While our initial interest in gradient NMR stems from the fact that familiar experiments can be run more quickly and more efficiently, the most exciting uses of gradients are the experiments that cannot be run without them. We find that gradients allow for improved magnetic resonance imaging (MRI), improved magnetic resonance microscopy, better solvent suppression (especially water), and entirely new areas of inquiry such as diffusion measurements. [Pg.284]

Figure 16.25. Motion-sensitized proton images of water flowing in a tube. The top image gives the velocity (vertical direction) at each point in the tube cross section, the middle image gives the molecular diffusion coefficient, and the bottom shows the expected parabolic velocity profile across the tube diameter. (Reprinted with permission from Callaghan PT. Principles of Nuclear Magnetic Resonance Microscopy. Oxford University Press, New York, 1991. Copyright 1991 Oxford University Press.)... Figure 16.25. Motion-sensitized proton images of water flowing in a tube. The top image gives the velocity (vertical direction) at each point in the tube cross section, the middle image gives the molecular diffusion coefficient, and the bottom shows the expected parabolic velocity profile across the tube diameter. (Reprinted with permission from Callaghan PT. Principles of Nuclear Magnetic Resonance Microscopy. Oxford University Press, New York, 1991. Copyright 1991 Oxford University Press.)...
Altobelli, S. A., Caprihan, C., Fukushima, E., and Majors, P.D., NMR Imaging Studies of Velocity and Concentration Distributions in Flows, in Magnetic Resonance Microscopy. Methods and Applications in Materials Science. Agriculture and Biomedicine (Bluemich, B., and Kuhn, W., eds.), 1992. [Pg.348]

X-ray Photoelectron Spectroscopy XPSj Circular Dichroism Spectroscopy Nuclear Magnetic Resonance NMR Imaging Fluorescence Spectroscopy Phosphorescence Spectroscopy Luminescence Spectroscopy Light Scattering X-ray Diffraction Electron Diffraction Microscopy Thermal - M hanical Methods... [Pg.4]

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