We report a simple two-dimensional NMR method for obtaining 2H NMR pure-quadrupole spectra of
paramagnetic solids. This method is based on a quadrupole-echo sequence inserted with 180 pulses,
where the pulse spacings are incremented asymmetrically so that the 2H magnetization evolves only
by the quadrupole interaction in the indirect dimension. It is shown that when the sequence is carried
out with strong radio-frequency pulses, the spectrum projected to the indirect dimension can be simulated
using the quadrupole-echo sequence without considering the effect of the paramagnetic shift.
The method was also used to investigate molecular dynamics by measurement and simulation of the
temperature dependence of the 2H NMR spectra.