Easy-going deconvolution: Combining accurate simulation and evolutionary algorithms for fast deconvolution of solid-state quadrupolar nmr spectra

Abstract A fast and accurate fit program is presented for deconvolution of one-dimensional solid-state quadrupolar NMR spectra of powdered materials. Computational costs of the synthesis of theoretical spectra are reduced by the use of libraries containing simulated time/frequency domain data. These libraries are calculated once and with the use of second-party simulation software readily available in the NMR community, to ensure a maximum flexibility and accuracy with respect to experimental conditions. EASY-GOING deconvolution ( EGdeconv ) is equipped with evolutionary algorithms that provide robust many-parameter fitting and offers efficient parallellised computing. The program supports quantification of relative chemical site abundances and (dis)order in the solid-state by incorporation of (extended) Czjzek and order parameter models. To illustrate EGdeconv ’s current capabilities, we provide three case studies. Given the program’s simple concept it allows a straightforward extension to include other NMR interactions. The program is available as is for 64-bit Linux operating systems.