A refinement strategy for Monte Carlo modelling of diffuse scattering from molecular crystal systems

Chan, Eric; Welberry, Thomas Richard; Goossens, Darren; Heerdegen, Aidan

A refinement strategy for Monte Carlo modelling of diffuse scattering from molecular crystal systems

Date

2010

Authors

Chan, Eric

Welberry, Thomas Richard

Goossens, Darren

Heerdegen, Aidan

Publisher

Wiley-Blackwell

Abstract

A new strategy for modelling diffuse scattering from molecular crystals using Monte Carlo simulation is described. The use of harmonic (Hookes law) springs to represent effective intermolecular interactions is preserved, in order to minimize computer requirements, but use is now made of a simple empirical formula to specify spring constants and provide an objective means for limiting the number of springs needed to be used. The method has been tested on diffuse scattering data obtained for form I of paracetamol.

Keywords

Keywords: diffuse X-ray scattering; Monte Carlo simulation; paracetamol; semi-empirical potentials

URI

http://hdl.handle.net/1885/60117

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ANU Research Publications

Source

Journal of Applied Crystallography

Type

Journal article

DOI

10.1107/S0021889810022260

Restricted until

2037-12-31

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A refinement strategy for Monte Carlo modelling of diffuse scattering from molecular crystal systems

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