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 Results for DC.creator="V." AND DC.creator="Janovec" in section 3.4.2 of volume D
Domain states
Janovec, V. and Prívratská  International Tables for Crystallography (2013). Vol. D, Section 3.4.2, pp. 486-505 [ doi:10.1107/97809553602060000918 ]
... tensor parameters, order parameters and domain states T, U, S, V: property tensors; TOP: designation of tensor or order parameter; : representation ... S Principal (full) in tensor S Spontaneous components of tensor V Degenerate (partial) in tensor V Primary order parameter Basic (microscopic) Pseudoproper order parameter Basic ( ...

Explanation of Table 3.4.2.7
Janovec, V. and Prívratská  International Tables for Crystallography (2013). Vol. D, Section 3.4.2.4.1, pp. 496-497 [ doi:10.1107/97809553602060000918 ]
... by E. Prince, ch. 1.3. Dordrecht: Kluwer Academic Publishers. Kopský, V. (2001). Tensor parameters of ferroic phase transitions I. Theory ...

Synoptic table of ferroic transitions and domain states
Janovec, V. and Prívratská  International Tables for Crystallography (2013). Vol. D, Section 3.4.2.4, pp. 495-497 [ doi:10.1107/97809553602060000918 ]
... ferromagnetic species together with their property tensors is available online (Janovec, 2012). As we have already stated, any systematic analysis ... de Chubnikov. Bull. Soc. Fr. Mineral. Cristallogr. 81, 126-132. Janovec, V. (2012). Non-ferromagnetic species of ferroic crystals. http:// ...

Property tensors associated with ferroic domain states
Janovec, V. and Prívratská  International Tables for Crystallography (2013). Vol. D, Section 3.4.2.3, pp. 493-495 [ doi:10.1107/97809553602060000918 ]
... tensor parameters, order parameters and domain states T, U, S, V: property tensors; TOP: designation of tensor or order parameter; : representation ... S Principal (full) in tensor S Spontaneous components of tensor V Degenerate (partial) in tensor V Primary order parameter Basic (microscopic) Pseudoproper order parameter Basic ( ...

Domain states with the same stabilizer
Janovec, V. and Prívratská  International Tables for Crystallography (2013). Vol. D, Section 3.4.2.2.3, pp. 492-493 [ doi:10.1107/97809553602060000918 ]
Domain states with the same stabilizer 3.4.2.2.3. Domain states with the same stabilizer In our illustrative example (see Fig. 3.4.2.2), we have seen that two domain states and have the same symmetry group (stabilizer) . In general, the condition `to have the same stabilizer (symmetry group)' divides the set of n ...

Ferroelectric domain states
Janovec, V. and Prívratská  International Tables for Crystallography (2013). Vol. D, Section 3.4.2.2.2, p. 492 [ doi:10.1107/97809553602060000918 ]
Ferroelectric domain states 3.4.2.2.2. Ferroelectric domain states Ferroelectric domain states are defined as states with a homogeneous spontaneous polarization; different ferroelectric domain states differ in the direction of the spontaneous polarization. Ferroelectric domain states are specified by the stabilizer of the spontaneous polarization in the first principal domain state [see equation ...

Ferroelastic domain state
Janovec, V. and Prívratská  International Tables for Crystallography (2013). Vol. D, Section 3.4.2.2.1, pp. 491-492 [ doi:10.1107/97809553602060000918 ]
... 1992). Introduction to Mineral Sciences. Cambridge University Press. Wadhawan, V. K. (2000). Introduction to Ferroic Materials. The Netherlands: Gordon ...

Degenerate (secondary) domain states, partition of principal domain states
Janovec, V. and Prívratská  International Tables for Crystallography (2013). Vol. D, Section 3.4.2.2, pp. 490-493 [ doi:10.1107/97809553602060000918 ]
... 1992). Introduction to Mineral Sciences. Cambridge University Press. Wadhawan, V. K. (2000). Introduction to Ferroic Materials. The Netherlands: Gordon ...

Principal and basic domain states
Janovec, V. and Prívratská  International Tables for Crystallography (2013). Vol. D, Section 3.4.2.1, pp. 486-490 [ doi:10.1107/97809553602060000918 ]
Principal and basic domain states 3.4.2.1. Principal and basic domain states As for all crystalline materials, domain structures can be approached in two ways: In the microscopic description, a crystal is treated as a regular arrangement of atoms. Domains differ in tiny differences of atomic positions which can be determined only ...

Basic (microscopic) domain states and their partition into translation subsets
Janovec, V. and Prívratská  International Tables for Crystallography (2013). Vol. D, Section 3.4.2.5, pp. 497-505 [ doi:10.1107/97809553602060000918 ]
... high-symmetry approximation (Zikmund, 1984) or parent clamping approximation (PCA) (Janovec et al., 1989; Wadhawan, 2000), requires that the lengths of ... basic domain states (for more details see Barkley & Jeitschko, 1973; Janovec, 1976; Wondratschek & Jeitschko, 1976). Example 3.4.2.7. Basic domain states ... to International Tables for Crystallography Vol. A. Sofia: Heron Press. Janovec, V. (1976). Symmetry approach to domain structures. Ferroelectrics, ...

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