Abstract
A general purpose pulse experiment simulation program, SMART (simulation of magnetic resonance pulse experiments in the time domain), is described generating time-domain signals. It features a Cartesian product-operator interpreter to handle arbitrary Hamiltonians without limitations on the spin quantum number for simulations in a variety of situations. A high-level pulse experiment simulation language is tailored to a wide variety of one- or two-dimensional homo- and heteronuclear magnetic resonance experiments using radio-frequency pulses, delays, and phase-cycling schemes. Illustrative simulations of 2D NMR experiments (E.COSY and time reversal of scalar J couplings) with a strongly coupled three-spin system and electron spin-echo modulation experiments are presented.
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