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Interaction scalar coupling

Scalar coupling Coupling interaction between nuclei transmitted through chemical bonds (vicinal and geminal couplings). [Pg.419]

In summary, NMR techniques based upon chemical shifts and dipolar or scalar couplings of spin-1/2 nuclei can provide structural information about bonding environments in semiconductor alloys, and more specifically the extent to which substitutions are completely random, partially or fully-ordered, or even bimodal. Semiconductor alloys containing magnetic ions, typically transition metal ions, have also been studied by spin-1/2 NMR here the often-large frequency shifts are due to the electron hyperfine interaction, and so examples of such studies will be discussed in Sect. 3.5. For alloys containing only quadrupolar nuclei as NMR probes, such as many of the III-V compounds, the nuclear quadrupole interaction will play an important and often dominant role, and can be used to investigate alloy disorder (Sect. 3.8). [Pg.260]

When performing 2D-NMR experiments one must keep in mind that the second frequency dimension (Fx) is digitized by the number of tx increments. Therefore, it is important to consider the amount of spectral resolution that is needed to resolve the correlations of interest. In the first dimension (F2), the resolution is independent of time relative to F. The only requirement for F2 is that the necessary number of scans is obtained to allow appropriate signal averaging to obtain the desired S/N. These two parameters, the number of scans acquired per tx increment and the total number of tx increments, are what dictate the amount of time required to acquire the full 2D-data matrix. 2D-homo-nuclear spectroscopy can be summarized by three different interactions, namely scalar coupling, dipolar coupling and exchange processes. [Pg.286]

Dipolar (or direct) coupling between nuclear dipoles is the second mechanism of spin-spin interaction (see Section 4.1.1.2. for scalar coupling). Acting through space209-212 it is dependent on the distance r between the dipoles as well as the angle between their vectors and the direction of the external field B0. [Pg.313]

When the NMR measurements are carried out in an isotropic phase, the four (la-ld) interactions define four isotropic contributions to the scalar coupling constant,... [Pg.170]

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See also in sourсe #XX -- [ Pg.40 ]



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