Abstract
A detailed description is given, for the first time, of the practical operation of a pulsed Fourier transform spectrometer as a routine proton instrument. The application of continuous wave and pulsed Fourier transform Nuclear Magnetic Resonance spectrometry to the examination of tritiated organic compounds has been studied. Methods have been developed for obtaining spectra from material containing one millicurie of tritium, or less, and for internally referencing such spectra, for comparison with the protonated material. The application of a Nuclear Magnetic Resonance spectrometer/ computer system to various kinetic and other problems has been studied.