modify your search
 Results for DC.creator="M." AND DC.creator="I." AND DC.creator="Aroyo"   page 2 of 3 pages.
Guide to the subgroup tables and graphs
Wondratschek, H. and Aroyo, M. I.  International Tables for Crystallography (2011). Vol. A1, ch. 2.1, pp. 72-96 [ doi:10.1107/97809553602060000797 ]
... IT A. The data comprise: Headline Generators selected General position I Maximal translationengleiche subgroups II Maximal klassengleiche subgroups I Minimal translationengleiche supergroups II Minimal non-isomorphic klassengleiche supergroups. For ... as introduced in International Tables for X-ray Crystallography, Vol. I (1952). These numbers run from 1 to 17 ...

Historical introduction
Aroyo, M. I., Müller, U. and Wondratschek, H.  International Tables for Crystallography (2011). Vol. A1, ch. 1.1, pp. 2-6 [ doi:10.1107/97809553602060000790 ]
... as IT 35), International Tables for X-ray Crystallography, Vol. I (1952, 1965, 1969) (abbreviated as IT 52) and International Tables ... the last in a series of four publications, dealing with (I) a nomenclature of the space-group types, a predecessor of ... space-group types which is related to the nomenclature in (I); (III) the derivation of the 75 types of rod ...

Tables of maximal subgroups of the plane groups
Billiet, Y., Aroyo, M. I. and Wondratschek, H.  International Tables for Crystallography (2011). Vol. A1, ch. 2.2, pp. 97-114 [ doi:10.1107/97809553602060000798 ]
Tables of maximal subgroups of the plane groups Subgroup and supergroup data for the two-dimensional plane groups are presented. The data include: the generators selected, the general position, maximal translationengleiche subgroups, maximal klassengleiche subgroups, minimal translationengleiche supergroups and minimal non-isomorphic klassengleiche supergroups. International Tables for Crystallography Index of the ...

Application of the graphs
Wondratschek, H. and Aroyo, M. I.  International Tables for Crystallography (2011). Vol. A1, Section 2.1.8.5, pp. 93-96 [ doi:10.1107/97809553602060000797 ]
... given pair of space-group types and a given index [i], however, there could exist several Hermann groups of different space ... this volume are very helpful in their determination. The index [i] is the product of the index , which is the ratio ... Consider a pair of the space-group types with index [i] = 24. The factorization of the index [i] into and ...
     [more results from section 2.1.8 in volume A1]

Derivation of the remaining minimal t-supergroups
Wondratschek, H. and Aroyo, M. I.  International Tables for Crystallography (2011). Vol. A1, Section 2.1.7.5, p. 90 [ doi:10.1107/97809553602060000797 ]
Derivation of the remaining minimal t-supergroups 2.1.7.5. Derivation of the remaining minimal t-supergroups By the procedure discussed in Section 2.1.7.4, from a supergroup other supergroups could be found which are isomorphic to with the same index. The question arises as to whether there exist further minimal supergroups isomorphic to ...
     [more results from section 2.1.7 in volume A1]

II Minimal non-isomorphic klassengleiche supergroups
Wondratschek, H. and Aroyo, M. I.  International Tables for Crystallography (2011). Vol. A1, Section 2.1.6.3, p. 85 [ doi:10.1107/97809553602060000797 ]
II Minimal non-isomorphic klassengleiche supergroups 2.1.6.3. II Minimal non-isomorphic klassengleiche supergroups If is a k-supergroup of , and always belong to the same crystal family and there are no lattice restrictions for . As mentioned above, in the tables of this volume only non-isomorphic minimal k-supergroups are ...
     [more results from section 2.1.6 in volume A1]

Applications of group-subgroup relations
Aroyo, M. I., Müller, U. and Wondratschek, H.  International Tables for Crystallography (2011). Vol. A1, Section 1.1.4, pp. 4-5 [ doi:10.1107/97809553602060000790 ]
... secondary order parameters to the structural distortion characterizing the transition (Aroyo & Perez-Mato, 1998). In treating successive phase transitions within ... basic ideas can also be found in the textbook by Müller (2006). For a review see Müller (2004). Details are presented in Chapter 1.6 ...

Development of the theory of group-subgroup relations
Aroyo, M. I., Müller, U. and Wondratschek, H.  International Tables for Crystallography (2011). Vol. A1, Section 1.1.3, pp. 3-4 [ doi:10.1107/97809553602060000790 ]
... the last in a series of four publications, dealing with (I) a nomenclature of the space-group types, a predecessor of ... space-group types which is related to the nomenclature in (I); (III) the derivation of the 75 types of rod groups ... Sb2ZnO6 (structure type of tapiolite, Ta2FeO6) was determined by Byström et al. (1941): `If no distinction is drawn between ...

Symmetry and crystal-structure determination
Aroyo, M. I., Müller, U. and Wondratschek, H.  International Tables for Crystallography (2011). Vol. A1, Section 1.1.2, pp. 2-3 [ doi:10.1107/97809553602060000790 ]
... as IT 35), International Tables for X-ray Crystallography, Vol. I (1952, 1965, 1969) (abbreviated as IT 52) and International Tables ... . Raumchemie der festen Stoffe. Leipzig: L. Voss. Goldschmidt, V. M. (1926). Untersuchungen über den Bau und Eigenschaften von Krystallen. ... Tables for X-ray Crystallography (1952, 1965, 1969). Vol. I, Symmetry Groups, edited by N. F. M. Henry & K. ...

The fundamental laws of crystallography
Aroyo, M. I., Müller, U. and Wondratschek, H.  International Tables for Crystallography (2011). Vol. A1, Section 1.1.1, p. 2 [ doi:10.1107/97809553602060000790 ]
... in Rottweil zum Schlusse des Schuljahres 1886-1887. Schoenflies, A. M. (1891). Krystallsysteme und Krystallstruktur. Leipzig: Teubner. Reprint (1984): Springer. ... Leipzig: Teubner. Wiener, C. (1863). Grundzüge der Weltordnung. I. Atomlehre, p. 82. Leipzig, Heidelberg: Wintersche Verlagsbuchhandlung. International Tables for ...

Page: Previous 1 2 3 Next powered by swish-e
























































to end of page
to top of page