addenda and errata
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Thermoelectric transport properties in magnetically ordered crystals. Corrigendum and addenda
aMultiscale Materials Experiments, Research with Neutrons and Muons, Paul Scherrer Institut, Forschungsstrasse 111, Villigen PSI, CH-5232, Switzerland
*Correspondence e-mail: hans.grimmer@psi.ch
A correction and additions concerning the limiting point groups are made to the article by Grimmer [Acta Cryst. (2017), A73, 333–345].
Keywords: thermoelectricity; transport properties; magnetic order; galvanomagnetic effects; thermomagnetic effects.
Corrigendum: Restriction ** in Fig. 4(c) of Grimmer (2017) should be = ).
Addenda: If polycrystalline materials are considered instead of single crystals, it is often presumed that their symmetry can be described by a limit et al. (2018). They measured the anisotropy of the quadratic magneto-Peltier effect in ferromagnetic polycrystalline nickel, presuming the material to be isotropic. It is therefore useful to consider, in addition to the crystallographic space–time point groups, the limit continuous ones. This leads to the following additions to Table 3 in Grimmer (2017):
(Curie group). A recent example is given by Uchida
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Add in the first column of Fig. 1 `∞1′' in the third cell from the bottom, `∞21′' in the second cell from the bottom and `∞∞1′' in the bottom cell.
Add in the bottom cell of the first column of Fig. 2(b) `∞∞1′' and `*'.
Add below Fig. 2(b) `* In ∞∞1′ the components of the fourth-rank tensor satisfy the restriction R1212 = ½(R1111 − R1122), where R stands for ρ+, k+ and Σ+'.
Add in the first column of Fig. 2(c) `∞1′' in the second cell from the bottom and `∞21′' in the bottom cell.
Add in the first column of Fig. 3 `∞' in the third cell from the bottom, `∞2' in the second cell from the bottom and `∞∞' in the bottom cell.
Add in the bottom cell of the first column of Fig. 4(b) `∞∞' and `*'.
Add below Fig. 4(b) `* In magnetic form class ∞∞ the components of the fourth-rank tensor satisfy the restriction = )'.
Add in the first column of Fig. 4(c) `∞' in the second cell from the bottom and `∞2' in the bottom cell.
Add in the first column of Fig. 5 `∞2′' in the second cell from the bottom.
Add in the first column of Fig. 6(c) `∞2′' in the fourth cell from the bottom.
References
Grimmer, H. (2017). Acta Cryst. A73, 333–345. Web of Science CrossRef IUCr Journals Google Scholar
Uchida, K. I., Daimon, S., Iguchi, R. & Saitoh, E. (2018). Nature, 558, 95–99. CrossRef CAS Google Scholar
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