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 Results for DC.creator="G." AND DC.creator="M." AND DC.creator="Sheldrick" in section 16.1.10 of volume F
Substructure applications
Sheldrick, G. M., Gilmore, C. J., Hauptman, H. A., Weeks, C. M., Miller, R. and Usón, I.  International Tables for Crystallography (2012). Vol. F, Section 16.1.10.4, p. 425 [ doi:10.1107/97809553602060000850 ]
... multiwavelength MAD data generated, for example, by the programs SHELXC (Sheldrick, 2008, 2010) or XPREP (Bruker AXS, Madison, WI). The ... of the correlation coefficients between the signed anomalous differences (Schneider & Sheldrick, 2002). On the other hand, SnB is normally applied ... time needed to find a solution. References Schneider, T. R. & Sheldrick, G. M. (2002). Substructure solution with SHELXD. Acta ...

Expansion to P1
Sheldrick, G. M., Gilmore, C. J., Hauptman, H. A., Weeks, C. M., Miller, R. and Usón, I.  International Tables for Crystallography (2012). Vol. F, Section 16.1.10.3, pp. 424-425 [ doi:10.1107/97809553602060000850 ]
... slightly better than random' phases. One possibility, successfully demonstrated by Sheldrick & Gould (1995), is to use a rotation search for a ... molecular replacement is not needed. Various Patterson superposition minimum functions (Sheldrick & Gould, 1995; Pavelcík, 1994) can also provide an excellent ... effective approach to structure solution. References Dodson, E. J. & Woolfson, M. M. (2009). ACORN2: new developments of the ACORN ...

Choosing a refinement strategy
Sheldrick, G. M., Gilmore, C. J., Hauptman, H. A., Weeks, C. M., Miller, R. and Usón, I.  International Tables for Crystallography (2012). Vol. F, Section 16.1.10.2, pp. 423-424 [ doi:10.1107/97809553602060000850 ]
Choosing a refinement strategy 16.1.10.2. Choosing a refinement strategy Variations in the computational details of the dual-space loop can make major differences in the efficacy of SnB and SHELXD. Fig. 16.1.10.2 shows the results of different strategies tested on a 148-atom P1 structure (Karle et al., 1989) while developing ...

Avoiding false minima
Sheldrick, G. M., Gilmore, C. J., Hauptman, H. A., Weeks, C. M., Miller, R. and Usón, I.  International Tables for Crystallography (2012). Vol. F, Section 16.1.10.1, pp. 422-423 [ doi:10.1107/97809553602060000850 ]
... point represents a minimum of 256 trials. References Schäfer, M., Sheldrick, G. M., Schneider, T. R. & Vértesy, L. (1998). Structure ...

Applying dual-space programs successfully
Sheldrick, G. M., Gilmore, C. J., Hauptman, H. A., Weeks, C. M., Miller, R. and Usón, I.  International Tables for Crystallography (2012). Vol. F, Section 16.1.10, pp. 422-425 [ doi:10.1107/97809553602060000850 ]
... slightly better than random' phases. One possibility, successfully demonstrated by Sheldrick & Gould (1995), is to use a rotation search for a ... molecular replacement is not needed. Various Patterson superposition minimum functions (Sheldrick & Gould, 1995; Pavelcík, 1994) can also provide an excellent ... multiwavelength MAD data generated, for example, by the programs SHELXC (Sheldrick, 2008, 2010) or XPREP (Bruker AXS, Madison, WI). ...

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