Abstract
The shape of the deuteron magnetic resonance (DMR) signal depends on the deuteron target polarization which can be extracted by fitting the signal. A realistic fitting function and efficient numerical methods for its computation have been developed for DMR signals obtained with a constant-current parallel-time Q -meter. It was found that consistently good fits and reliable results are possible only if the dispersion part of the magnetic susceptibility as well as the coaxial cable to the DMR coil are taken into account. The absolute uncertainty in the vector polarization resulting from this method is estimated to be less than 0.01.
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