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References
Оглавление1 [1] Buerger, M.J. (1963). Elementary Crystallography. New York: Wiley.
2 [2] Phillips, F.C. (1971). Introduction to Crystallography, 4th Edition. Edinburgh: Oliver & Boyd.
3 [3] Aroyo, M.I. (ed.) (2016). International Tables for Crystallography, 6th, Revised Edition, Vol. A: Space‐Group Symmetry, published for the International Union of Crystallography. Chichester: Wiley International.
4 [4] Henry, N.F.M. and Lonsdale, K. (eds.) (1952). International Tables for X‐Ray Crystallography, Volume I, International Union for Crystallography. Birmingham, England: Kynoch Press.
5 [5] de Jong, W.F. (1959). General Crystallography: A Brief Compendium. New York: W.H. Freeman.
6 [6] Bravais, A. (1866). Études Cristallographiques, p. 119. Paris: Gauthier‐Villars.
7 [7] Friedel, G. (1926). Leçons de Cristallographie, p. 80. Nancy‐Paris‐Strasbourg: Berger‐Levrault.
8 [8] Weber, L. (1922). Das viergliedrige Zonensymbol des hexagonalen Systems. Z. Kristallogr. 57: 200–203.
9 [9] Ewald, P.P. (ed.) (1962). Fifty Years of X‐Ray Diffraction. Utrecht: N.V.A. Oosthoek.
10 [10] Carpenter, M.A. and Howard, C.J. (2009). Symmetry rules and strain/order‐parameter relationships for coupling between octahedral tilting and cooperative Jahn–Teller transitions in ABX3 perovskites. I. Theory. Acta Crystallogr. B 65: 134–146.
11 [11] Carpenter, M.A. and Howard, C.J. (2009). Symmetry rules and strain/order‐parameter relationships for coupling between octahedral tilting and cooperative Jahn–Teller transitions in ABX3 perovskites. II. Application. Acta Crystallogr. B 65: 147–159.
12 [12] Howard, C.J. and Carpenter, M.A. (2010). Octahedral tilting in cation‐ordered Jahn–Teller distorted perovskites – a group‐theoretical analysis. Acta Crystallogr. B 66: 40–50.
13 [13] Schoenflies, A. (1891). Krystallsysteme und Krystallstructur. Leipzig: B.G. Teubner.
14 [14] Hermann, C. (1928). Zur systematischen Strukturtheorie I. Eine neue Raumgruppensymbolik. Z. Kristallogr. 68: 257–287.
15 [15] Mauguin, C. (1931). Sur le symbolisme des groupes de répétition ou de symétrie des assemblages cristallins. Z. Kristallogr. 76: 542–558.
16 [16] Atkins, P.W., De Paula, J. and Keeler, J. (2017). Atkins' Physical Chemistry, 11th Edition. Oxford: Oxford University Press.
17 [17] Burns, G. and Glazer, A.M. (1990). Space Groups for Solid State Scientists, 2nd Edition. New York: Academic Press.
18 [18] Mathews, J. and Walker, R.L. (1970). Mathematical Methods of Physics, 2nd Edition. Reading, MA: Addison‐Wesley.
19 [19] Riley, K.F., Hobson, M.P. and Bence, S.J. (2006). Mathematical Methods for Physics and Engineering, 3rd Edition. Cambridge: Cambridge University Press.
20 [20] Hahn, T. (ed.) (2002). International Tables for Crystallography, 5th, Revised Edition, Vol. A: Space‐Group Symmetry, published for the International Union of Crystallography. Dordrecht: Kluwer Academic Publishers.
21 [21] Urusov, V.S. and Nadezhina, T.N. (2009). Frequency distribution and selection of space groups in inorganic crystal chemistry. J. Struct. Chem. 50: S22–S37.
22 [22] Padmaja, N., Ramakumar, S. and Viswamitra, M.A. (1990). Space‐group frequencies of proteins and of organic compounds with more than one formula unit in the asymmetric unit. Acta Crystallogr. A 46: 725–730.
23 [23] Wukovitz, S.W. and Yeates, T.O. (2005). Why protein crystals favour some space‐groups over others. Nat. Struct. Biol. 2: 1062–1067.
24 [24] Mackay, A.L. (1957). Extensions of space‐group theory. Acta Crystallogr. 10: 543–548.
25 [25] Heesch, H. (1930). Über die vierdimensionalen Gruppen des dreidimensionalen Raumes. Z. Kristallogr. 73: 325–345.
26 [26] Shubnikov, A.V. and Kopstik, V.A. (1974). Symmetry in Science and Art. London: Plenum Press.
27 [27] Shull, C.G., Strauser, W.A. and Wollan, E.O. (1951). Neutron diffraction by paramagnetic and antiferromagnetic substances. Phys. Rev. 83: 333–345.
28 [28] Litvin, D.B. (2013). Magnetic Group Tables, 1‐, 2‐ and 3‐Dimensional Magnetic Subperiodic Groups and Magnetic Space Groups. Chester: International Union of Crystallography. Available free online from http://www.iucr.org/publ/978-0-9553602-2-0.
