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Nuclear magnetic from compressed

In the series of microbubble experiments (ref. 394) included in this chapter, the actual film material, contained in compressed microbubble-surfactant monolayers, was collected for structural determinations using H-nuclear magnetic resonance (NMR) spectroscopy. The resulting spectrum is then compared to the H-NMR spectrum which was obtained beforehand from the partially purified, microbubble surfactant mixture prior to monolayer formation and compression. [Pg.129]

Chromatography, infrared spectroscopy, mass spectrometry, nuclear magnetic resonance spectroscopy, ultraviolet-visible spectroscopy and others have also been benefited from the properties of wavelet processing for data compression, noise removal, base-line correction, zero crossing and regression (Leung et al. 1998). [Pg.155]

Fig. 7.18 Time evolution of the nuclear forward scattering for NiO powder at 3.2 K measured without external magnetic field (top) and with magnetic field of 4 T (bottom). The solid lines show the fit. The arrows emphasize compression of the dynamical beat structure by the applied magnetic field. The data at times below 14.6 ns had to be rescaled (from [34])... Fig. 7.18 Time evolution of the nuclear forward scattering for NiO powder at 3.2 K measured without external magnetic field (top) and with magnetic field of 4 T (bottom). The solid lines show the fit. The arrows emphasize compression of the dynamical beat structure by the applied magnetic field. The data at times below 14.6 ns had to be rescaled (from [34])...
See other pages where Nuclear magnetic from compressed is mentioned: [Pg.8]    [Pg.109]    [Pg.51]    [Pg.36]    [Pg.136]    [Pg.258]    [Pg.241]    [Pg.78]    [Pg.442]    [Pg.666]    [Pg.132]    [Pg.136]    [Pg.91]    [Pg.276]    [Pg.788]    [Pg.704]    [Pg.381]    [Pg.788]    [Pg.342]    [Pg.710]   


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Magnetic compression

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