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Curie's principle
International Tables for Crystallography (2016). Vol. A, Section 3.2.2.1.2, pp. 737-738 [ doi:10.1107/97809553602060000930 ]
Curie's principle 3.2.2.1.2. Curie's principle Curie's principle (Curie, 1894) describes the crystallographic symmetry of a macroscopic crystal which is subject to an external influence F, for example to an electric field E, to uniaxial stress [sigma]ii, to a temperature change [Delta]T etc. For this treatment, the ...
Neumann's principle
International Tables for Crystallography (2016). Vol. A, Section 3.2.2.1.1, p. 737 [ doi:10.1107/97809553602060000930 ]
... Authier (2014). A short resume is given by Klapper & Hahn (2005). As a consequence of the invariance of tensor ... Authier, ch. 1.1, pp. 3-33. Chichester: Wiley. Klapper, H. & Hahn, Th. (2005). Point groups. In Encyclopedia of Condensed Matter ...
General restrictions on physical properties imposed by symmetry
International Tables for Crystallography (2016). Vol. A, Section 3.2.2.1, pp. 737-739 [ doi:10.1107/97809553602060000930 ]
... Authier (2014). A short resume is given by Klapper & Hahn (2005). As a consequence of the invariance of tensor ... champ magnétique. J. Phys. (Paris), 3, 393-415. Klapper, H. & Hahn, Th. (2005). Point groups. In Encyclopedia of Condensed Matter ...
Piezoelectricity
International Tables for Crystallography (2016). Vol. A, Section 3.2.2.6, p. 741 [ doi:10.1107/97809553602060000930 ]
Piezoelectricity 3.2.2.6. Piezoelectricity In piezoelectric crystals, an electric dipole moment can be induced by compressional and torsional stress. For a uniaxial compression, the induced moment may be parallel, normal or inclined to the compression axis. These cases are called longitudinal, transverse or mixed compressional piezoeffect, respectively. Correspondingly, for torsional stress, the ...
International Tables for Crystallography (2016). Vol. A, Section 3.2.2.1.2, pp. 737-738 [ doi:10.1107/97809553602060000930 ]
Curie's principle 3.2.2.1.2. Curie's principle Curie's principle (Curie, 1894) describes the crystallographic symmetry of a macroscopic crystal which is subject to an external influence F, for example to an electric field E, to uniaxial stress [sigma]ii, to a temperature change [Delta]T etc. For this treatment, the ...
Neumann's principle
International Tables for Crystallography (2016). Vol. A, Section 3.2.2.1.1, p. 737 [ doi:10.1107/97809553602060000930 ]
... Authier (2014). A short resume is given by Klapper & Hahn (2005). As a consequence of the invariance of tensor ... Authier, ch. 1.1, pp. 3-33. Chichester: Wiley. Klapper, H. & Hahn, Th. (2005). Point groups. In Encyclopedia of Condensed Matter ...
General restrictions on physical properties imposed by symmetry
International Tables for Crystallography (2016). Vol. A, Section 3.2.2.1, pp. 737-739 [ doi:10.1107/97809553602060000930 ]
... Authier (2014). A short resume is given by Klapper & Hahn (2005). As a consequence of the invariance of tensor ... champ magnétique. J. Phys. (Paris), 3, 393-415. Klapper, H. & Hahn, Th. (2005). Point groups. In Encyclopedia of Condensed Matter ...
Piezoelectricity
International Tables for Crystallography (2016). Vol. A, Section 3.2.2.6, p. 741 [ doi:10.1107/97809553602060000930 ]
Piezoelectricity 3.2.2.6. Piezoelectricity In piezoelectric crystals, an electric dipole moment can be induced by compressional and torsional stress. For a uniaxial compression, the induced moment may be parallel, normal or inclined to the compression axis. These cases are called longitudinal, transverse or mixed compressional piezoeffect, respectively. Correspondingly, for torsional stress, the ...
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