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Recent Soviet work in the field of crystallography

  • Rassegne di Lavori di Fisica Pubblicati Negli ultimi Anni in Europa Orientale e Particolarmente in Russia
  • Published:
Il Nuovo Cimento (1943-1954)

An Erratum to this article was published on 01 January 1955

For as the proficience of learning consisteth much in the orders and institutions of universities in the same states and kingdoms, so it would be yet more advanced, if there were more intelligence mutual between the universities of Europe than now there is.Francis Bacon, The Advancement of Learning, 1605.

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Bibliography

  1. Transations of the second All-Union conference on the application of X-rays to the investigation of materials (Held in Leningrad in 1948; published byLonitomaš, (Mašgiz, 1949).

  2. The third All-Union conference on the application of X-rays to the investigation of materials (Leningrad, June 1950);Izv. Akad. Nauk SSSR. Ser. Fiz.,15, 9 and 147 (1951).

  3. List of 45 papers (31 relevant) given at the third conference but not published.Izv. Akad. Nauk SSSR, Ser. Fiz.,15, 279 (1951).

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  4. Report on the fourth conference on the application of X-rays to the investigation of materials (Leningrad, June 1952) (51 papers),Vest. Akad. Nauk,22, 122 (1952).

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For section 3

  1. N. V. Belov:The study of crystal structures, inPriroda, n. 4, 17 (1952).

  2. E. S. Fedorov:The symmetry of regular systems of figures (St. Petersburg, 1890, 2nd ed., 1949).

  3. E. S. Fedorov:The symmetry and structure of crystals (630 pp., Akad. Nauk, 1949).

  4. A. I. Kitajgorodskij:Progress in the X-ray structure analysis of crystals, inUsp. Fiz. Nauk,46, 23 (1952).

  5. V. I. Miheev:On the American X-ray card index, inZap. Vse. Miner. Ob.,80, 220 (1951).

  6. R. P. Ozerov:Structures by neutron diffraction, inUsp. Fiz. Nauk.,45, 481 (1951).

  7. A. V. Šubnikov:Crystallography in the service of a people's economy, inPriroda, n. 11, 77 (1952).

  8. Ju. V. Vulf:Selected works in crystal physics and crystallography (Moscow, 1952), 342 pp.

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  10. O. M. Anšeles:Principles of crystallography (Leningrad, 1952);N. V. Belov,Structural crystallography (Akad. Nauk Inst. Krist., 1951, 88 pp.);D. S. Beljankin:Crystal optics (Third ed., 1949);A. G. Betehtin:Mineralogy (1950), 956 pp.;A. G. Betehtin:Course in mineralogy (1951), 542 pp.;G. B. Bokij:Crystal optical analysis, Part I. (Optical data on 800 substances) (Akad. Nauk Inst. Ob. Neorg. Him., 1944);G. B. Bokij andM. A. Poraj-Košic:Practicalcourse in X-ray structure analysis, Vol. I (Moscow University, 1951), 429 pp.;A. I. Kitajgorodskij:X-ray structure analysis (1950), 650 pp.;A. I. Kitajgorodskij:X-ray structure analysis of polycrystalline and amorphous substances (1952), 416 pp. and powder data on 1299 substances;G. M. Popov andI. I. Šafranovskij:Crystallography (Second edn., 1948);I. V. Porojkov:Roentgenometry (1950), 383 pp.;A. V. Šubnikov:Optical crystallography (Akad. Nauk Inst. Krist., 1950), 275 pp.;Ju. P. Simanov:Practical handbook of roentgenometry (Moscow University, 1950);A. K. Trapeznikov:The control of materials and manufactured articles by means of X-rays (1951), 73 pp.;Ja. S. Umanskij, A. K. Trapeznikov andA. I. Kitajgorodskij:Roentgenography (1951);E. E. Flint:Principles of crystallography (1952), 242 pp.

  11. The following standard textbooks have recently appeared in Russian editions. (The dates are of the Russian editions).C. S. Barett:The structure of metals, (1948);M. J. Buerger:X-ray crystallography (1948);W. G. Cady:Piezoelectricity (1949);A. H. Compton andS. K. Allison:X-rays in theory and experiment (1941);R. C. Evans:Crystal chemistry (1948);R. W. James:The optical principles of the diffraction of X-rays (1950);K. Lonsdale:Crystals and X-rays (1952);L. Pauling:The nature of the chemical bond (1947);F. Seitz:Physics of metals (1947);F. Seitz:The modern theory of solids (1949);A. J. C. Wilson:X-ray optics (1951);A. N. Winchell:Optical mineralogy (1949). Many other books, such as those byBragg, had been translated much earlier.Discussions of the Faraday Society, n. 5 (1949), has appeared as:New studies on crystallography and the chemistry of crystals, Vols. I and II (1950), Edited byG. B. Bokij.

For section 4

  1. N. V. Belov:The structure of ionic crystals and metallic phases (Akad. Nauk Inst. Krist., 1947), 236 pp.

  2. N. V. Belov:On mirror (inversion) axes in symmetry space groups, inTru. Inst. Krist., n. 5, 3 (1949).

  3. N. V. Belov:Criteria of enantiomorphy, inDokl. Akad. Nauk SSSR,75, 33 (1950) [SA 3186, 1951].

  4. N. V. Belov:The class method of deducing the symmetry space group, inTru. Inst. Krist., n. 6, 25 (1951).

  5. N. V. Belov:On threefold rotations in crystallographic groups, inTru. Inst. Krist., n. 6, 63 (1951).

  6. N. V. Belov:The theorem of the emptiness (primitiveness) of the fundamental parallelepiped of a crystal lattice, inDokl. Akad. Nauk SSSR,78, 55 (1951). [SA 9122, 1951].

  7. N. V. Belov:The so-called law of crystallographic symmetry, inDokl. Akad. Nauk SSSR,88, 63 (1953). [SA 5767, 1953].

  8. N. V. Belov andV. I. Mokeeva:The application of the methods of harmonic analysis for establishing the parameters of crystal structures from standard powder roentgenograms, inTru. Inst. Krist., n. 5, 13 (1949).

  9. N. V. Belov andV. I. Mokeeva:A general method of solving structures of symmetry D 2h16 (Pnma), inDokl. Akad. Nauk SSSR,81, 187 (1951). [SA 5442, 1952].

  10. E. N. Belova, N. V. Belov andA. V. Šubnikov:The number and composition of the abstract groups corresponding to the 32 crystal classes. inDokl. Akad. Nauk SSSR,63, 669 (1948).

  11. G. B. Bokij andS. S. Bacanov:A new method of determining the structure of complex compounds, inVest. Mosk. Univ.,7, n. 2, 147 (1952).

  12. A. I. Kitajgorodskij:The accuracy of X-ray structural analysis of crystals, inŽu. Tehn. Fiz.,20, 397 (1950). [SA 2171, 1951].

  13. A. I. Kitajgorodskij:The possibility of determining a centre of symmetry in a crystal by X-ray structure analysis, inŽu. Fiz. Him.,25, 127 (1951).

  14. A. I. Kitajgorodskij:Determination of the coordinates of atoms in the unit cell by means of the F 2 -series, inŽu. Eksper. Teor. Fiz.,21, 717 (1951). [SA 2259, 1952].

  15. A. I. Kitajgorodskij:A new method of determining complex crystal structures, inUsp. Fiz. Nauk,47, 487 (1952).

  16. S. T. Konobeevskij:Investigation of the structure of atoms in crystals by the method of trial, inUsp. Fiz. Nauk,44, 21 (1951).

  17. V. I. Miheev:The number of homology classes of crystals, inDokl. Akad. Nauk SSSR,71, 667 (1950). [SA 7588, 1950].

  18. V. I. Miheev:Low symmetry closest packing of structure units, inZap. Vse. Miner. Obšč.,79, 161 (1950).

  19. V. I. Miheev:Homology space groups, inDokl. Akad. Nauk SSSR,77, 807 (1951). [SA 8420, 1951].

  20. S. L. Nudel'man:Indexing powder photographs, inŽu. Tehn. Fiz.,22, 773 (1952). [SA 8568, 1952].

  21. L. S. Palatnik:A quantitative formulation of crystal geometrical congruence, inDokl. Akad. Nauk SSSR,78, 1141 (1951). [SA 9817, 1951].

  22. L. S. Palatnik:The crystallogeometric principle of congruence and its application, inDokl. Akad. Nauk SSSR,82, 905 (1952).

  23. M. A. Poraj-Košic:Determination of the Laue class of symmetry from the symmetry of X-ray oscillation photographs, inTru. Inst. Krist., n.4, 167 (1948).

  24. V. V. Sanadze andG. S. Ždanov:A special case of a direct method of X-ray structure analysis, inDokl. Akad. Nauk SSSR,73, 111 (1950). [SA 9117, 1950].

  25. A. V. Šubnikov:Atlas of crystallographic groups of symmetry. (Akad. Nauk Inst. Krist., 1946), 55 pp.

  26. A. V. Šubnikov:The tetartohedry of L. Pasteur, inTru. Inst. Krist., n.4, 3 (1948).

  27. A. V. Šubnikov:Perspective of the development of the knowledge of symmetry. (Crystallography-collected article,Trudy Fëdorovskoj naučnoj sessii 1949, 1951).

  28. A. V. Šubnikov:The symmetry and anti-symmetry of bounded figures. (Akad. Nauk Inst. Krist., 1951), 172 pp.

  29. A. V. Šubnikov:Can a crystal be simultaneously isotropic and anisotropic?, inUsp. Fiz. Nauk,44, 3 (1951).

  30. A. V. Šubnikov:The so-called homology of crystals, inDokl. Akad. Nauk SSSR 88, 453 (1953). [SA 7272, 1953].

  31. B. K. Vajnštejn:Vector models of crystal structures, inDokl. Akad. Nauk SSSR,78, 1137 (1951). [SA 9816, 1951].

  32. G. S. Ždanov andZ. V. Zvonkova:The distribution of electron density in complex compounds in the crystalline state, inŽu. Eksper. Teor. Fiz.,22, 356 (1952).

  33. Z. V. Zvonkova andG. S. Ždanov:A direct method of determining the signs of the structure amplitudes, inDokl. Akad. Nauk SSSR,86, 529 (1952). [SA 5782, 1953].

For section 5

  1. N. V. Belov andE. N. Belova:The crystal structure of tourmaline, inDokl. Akad. Nauk SSSR,69, 185 (1949). [SA 3545, 1950].

  2. N. V. Belov andT. N. Tarhova:The crystal structure of milarite, inDokl. Akad. Nauk SSSR,69, 365 (1949).

  3. N. V. Belov andR. G. Matveeva:Determination of the parameters of beryl by the method of partial projections, inDokl. Akad. Nauk SSSR,73, 299 (1950). [SA 750, 1951].

  4. N. V. Belov andE. N. Belova:The structure of tourmaline, inDokl. Akad. Nauk SSSR,75, 807 (1950). [SA 3936, 1951].

  5. N. V. Belov andT. N. Tarhova:The crystal structure of milarite, inTru. Inst. Krist., n.6, 83 (1951).

  6. N. V. Belov, E. N. Belova, N. N. Adrianova andR. F. Smirnova:Determination of the parameters in the structure of olivine (forsterite) by the method of three-dimensional harmonic synthesis, inDokl. Akad. Nauk SSSR,81, 399 (1951). [SA 6181, 1952].

  7. N. V. Belov andV. I. Mokeeva:The crystal structure of ilvaite, inDokl. Akad. Nauk SSSR,81, 581 (1951). [SA 6205, 1952].

  8. N. V. Belov andV. I. Mokeeva:The crystal structure of ilvaite, inDokl. Akad. Nauk SSSR, 825 (1951). [SA 6898, 1952].

  9. N. V. Belov andR. G. Matveeva:Determination of the parameters of the structure of beryl by the method of partial projections, inTru. Inst. Krist., n. 6, 69 (1951).

  10. N. V. Belov, V. P. Butuzov andN. I. Golovastikov:The crystal structure of dioptase, inDokl. Akad. Nauk SSSR,87, 953 (1952). [SA 2083, 1953].

  11. N. V. Belov andI. M. Rumanova:The crystal structure of epidote, Ca2Al2FeSi3 O12(OH), inDokl. Akad. Nak SSSR,89, 853 (1953). [SA 7335, 1953].

  12. N. A. Bobkov andJu. V. Kazicyn:A new mineral-magnalumoxide, inZap. Vse. Miner. Obšč.,80, 853 (1953).

  13. G. B. Bokij, M. A. Poraj-Košic andG. N. Tiščenko:Refinement of the atomic coordinates in Zerar salt, trans-(NH3)2Cl4Pt, inIzv. Akad. Nauk, SSSR, Otdel. Him. Nauk, n. 5, 481 (1951).

  14. G. B. Bokij andE. A. Gilinskaja:The determination of the structural type of KCo(NO2)4(NH3)2, inDokl. Akad. Nauk SSSR,88, 461 (1953). [SA 7332, 1953].

  15. G. B. Bokij andE. A. Gilinskaja:X-ray structural investigations of K2[Pt(NO2)4 Cl2]and K2[Pt(NO2)4Br2], inDokl. Akad. Nauk SSSR,88, 975 (1953). [SA 8108, 1953].

  16. E. B. Gasilova andM. I. Sohor:The elucidation of the crystal structure of SiC.VIII, inDokl. Akad. Nauk SSSR,82, 249 (1952). [SA 7710, 1952].

  17. E. B. Gasilova, M. S. Beleckij andM. I. Sohor:The elucidation of a new structure for SiC−SiC VII, inDokl. Akad. Nauk SSSR,82, 57 (1952). [SA 7709, 1952].

  18. M. H. Glyzman, L. S. Palatnik andD. E. Plotkina:Investigation of the polymorphism of 2-methody-7-aminofluorenone, inŽu. Fiz. Him.,25, 10 (1951).

  19. G. A. Gol'der andM. M. Umanskij:Goniometric and X-ray investigation of crystals of 1,3,8-trinitronaphthalene, inŽu. Fiz. Him.,25, 555 (1951).

  20. G. A. Gol'der, G. S. Ždanov, M. M. Umanskij andV. P. Gluŝkova:X-ray study of crystals of certain nitro- and halogen derivatives of benzene and naphtalene, inŽu. Fiz. Him.,26, 1259 (1952). [SA 6324, 1953].

  21. G. A. Gol'der, G. S. Ždanov andM. M. Umanskij:An investigation of the crystal structure of trichlorbenzonitriles, inŽu. Fiz. Him,26, 1434 (1952). [SA 6325, 1953].

  22. T. L. Hocjanova andJu. T. Struĉkov:An X-ray investigation of diphenyliodonium iodine, inŽu. Fiz. Him.,26, 644 (1952), [SA 6322, 1953].

  23. T. L. Hocjanova andJu. T. Struĉkov:An X-ray investigation of diphenyliodonium chloride, inŽu. Fiz. Him.,26, 669 (1952). [SA 6323, 1953].

  24. T. L. Hocjanova andJu. T. Struĉkov:An X-ray investigation of o-iodobenzoic acid, inŽu. Fiz. Him.,26, 642 (1952). [SA 6321, 1952].

  25. T. L. Hocjanova, A. I. Kitajgorodskij andJu. T. Struĉkov:The crystal structure of tetraiodoethylene—C2I4; inDokl. Akad. Nauk SSSR,85, 785 (1952). [SA 8096, 1953].

  26. I. G. Ismajlzade andG. S. Ždanov:The crystal structure of metallo-organic compounds. II.X-ray investigation of the crystal structure of tetraphenyl compounds of Si, Snand Pb, inŽu. Fiz. Him.,26, 1619 (1952). [SA 7336, 1953].

  27. V. I. Iveronova, V. P. Tarasova andM. M. Umanskij:The structures of compounds of the rare-earth elements, inVest. Mosk. Univ. Ser. Fiz.-Mat. Nauk,8, 37 (1951).

  28. V. I. Iveronova, V. P. Tarasova andM. M. Umanskij:A study of the structures of certain compounds of the rare earth element, inIzv. Akad. Nauk, Ser. Fiz.,15, 164 (1951).

  29. V. I. Iveronova andC. M. Rojtburd:The question of morphology in the crystal structures of triphenyls of elements in the fifth group, inŽu. Fiz. Him.,26 810 (1952).

  30. A. I. Kitajgorodskij andJu. T. Struĉkov:The determination of chemical formula by the method of X-ray analysis (HgCl3-coumarine and HgBr2-marine), inIzv. Akad. Nauk, SSSR, Ser. Fiz.,15, 176 (1951).

  31. A. I. Kitajgorodskij andS. S. Kabalkina:An X-ray structural study of 1,5-dichloronaphthalene, inŽu. Fiz. Him.,25, 71 (1951).

  32. A. I. Kitajgorodskij andS. S. Kabalkina:An X-ray structural study of 1,5-dichloranthracene, inŽu. Fiz. Him,25, 185 (1951).

  33. A. I. Kitajgorodskij andV. M. Kožin:The crystal structure of phenol, inŽu. Fiz. Him.,25, 1261 (1951).

  34. Ju. D. Kondraŝev andA. I. Zaslavskij:The structures of the modifications of manganese dioxide, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 179 (1951).

  35. N. E. Neĉaeva, A. N. Fajdyŝ andO. Haritonova:[Unit cell] data on the investigation of crystals of dianthracene, inŽu. Eksper. Teor. Fiz.,22, 380 (1952). [SA 7711, 1952].

  36. E. A. Nikitina andA. S. Kokurina:Reduction of silicotungstates by hydrogen. I.Potassium tungsten bronze, inŽu. Obšč. Him.,20, 1380 (1950). [SA 755, 1951].

  37. A. V. Novoselova, Ju. P. Simanov andE. I. Jarembaš:Thermal and X-ray analysis of the system LiF-BeF2, inŽu. Fiz. Him.,26, 1244 (1952). [SA 6318, 1953).

  38. J. Ozols:Modifications of bismuthyl nitrate, BiONO3·H2O, inLatv. PSR Zin. Akad. Vest., n. 5, 83 (1950). [SA 6586, 1951].

  39. Z. P. Paševa andT. N. Tarhova:The crystal structure of milarite, inDokl. Akad. Nauk SSSR,88, 807 (1953). [SA 8797, 1953].

  40. M. A. Poraj-Košic:An X-ray study of the structure of potassium tetranitropalladite. (Akad. Nauk, Inst. Obšč. Neorg. Him., 1948), 106 pp.

  41. M. A. Poraj-Košic:The structure of crystals of the β-modification of rubidium tetranitropalladite, inTru. Inst. Krist., n. 6, 147 (1951).

  42. M. A. Poraj-Košic:The isomorphism of crystals of rubidium and caesium tetranitropalladites, inTru. Inst. Krist., n. 6, 155 (1951).

  43. A. A. Rusakov andG. S. Ždanov:The crystal structure and chemical formula of Ti3O5 (anosovite), inDokl. Akad. Nauk SSSR,77, 411 (1951). [SA 6582, 1951].

  44. G. Sevastjanov andM. M. Umanskij:X-ray structural investigations of crystals of 1,5-naphthaldiamine, C10H5(NH2)2, inŽu. Fiz. Him.,24, 468 (1950).

  45. Ju. T. Stručkov, A. I. Kitajgorodskij andT. L. Hocjanova:The crystal structures of the tri-β-chlorivinyl stibines, inŽu. Fiz. Him.,26, 530 (1952). [SA 6901, 1952].

  46. E. A. Ŝugam andG. S. Ždanov:An X-ray study of the crystal structure of NaAu(CN)2, inTru. Inst. Krist, n. 4, 179 (1948).

  47. A. I. Zaslavskij andS. S. Tolkačev:The structure of theα-modification of lead dioxide, inŽu. Fiz. Him.,26, 743 (1952). [SA 6316, 1953].

  48. G. S. Ždanov andZ. P. Razmanova:Isomorphism and morphotrophy in a number of crystals, X2Sb(p-C6H4CH3)3: X=F, Cl, Br, I, inDokl. Akad. Nauk SSSR,72, 1055 (1950). [SA 8317, 1950].

  49. G. S. Ždanov andZ. V. Zvonkova:The crystal structures of the thiocyanates. II.The crystal structure of the tetrathiocyanate cobaltate of potassium, inŽu. Fiz. Him.,24, 1339 (1950).

  50. G. S. Ždanov andZ. V. Zvonkova:Izv. Sek. Plating Inst. Obšč. Neorg. Him.,21, 235 (1951).

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  51. G. S. Ždanov andV. V. Sanadze:The crystal structures of the thiocyanates. IV.X-ray investigation of the crystal structures of Hg(SCN)2·KSCN and Hg(SCN)2·NH4SCN, inŽu. Fiz. Him.,26, 469 (1952). [SA 6895, 1952].

  52. G. S. Ždanov andZ. V. Zvonkova:The crystal structure of KO3, inŽu. Fiz. Him.,25, 100 (1951).

  53. G. S. Ždanov andZ. V. Zvonkova:Crystals structures of the higher oxides of metals in the first group of the periodic system, inDokl. Akad. Nauk SSSR,82, 742 (1952). [SA 5784, 1953].

  54. G. S. Ždanov, Z. V. Zvonkova andV. P. Gluškova: [K4Ni(SCN)6·4H2O], inŽu. Fiz. Him.,27, n. 1, 106 (1953).

  55. Z. V. Zvonkova andG. S. Ždanov:The crystal structures of the thiocyanates. III.X-rays investigations of Ba(SCN)2·2H2Ocrystals, inŽu. Fiz. Him.,24, 1345 (1950).

  56. Z. V. Zvonkova andG. S. Ždanov:The crystal structures of the thiocyanates. V.The crystal structures of the halogen thiocyanates of mercury, inŽu. Fiz. Him.,26, 586 (1952). [SA 7896, 1952].

  57. Z. V. Zvonkova:The crystal structures of the thiocyanates. VI.The crystal structures of the complex tetrathiocyanates of Zn, Cd,and Hg, inŽu. Fiz. Him.,26, 1798 (1952). [SA 7329, 1953].

  58. Z. V. Zvonkova:The crystal structures of the thiocyanates. VII.The crystal structure of the complex tetrathiocyanate of platinum, inŽu. Fiz. Him.,26, 1804 (1952). [SA 7330, 1953].

  59. Report of a conference on high intensity sources of monochromatic X-radiation. (Harkov, Jan. 1952).Vest. Akad. Nauk,22, 103 (1952);Materials of a conference of high intensity sources of monochromatic X-radiation. (Harkov, Jan. 1952);Izv. Akad. Nauk SSSR, Ser. Fiz.,16, 333 (1952). [SA 2065-72, 1953].

  60. Ju. A. Bagarjackij andE. V. Koloncova:An X-ray monochromator with a bent crystal, inZap. Lab.,16, 955 (1950).

  61. Ju. A. Bagarjackij andM. M. Umanskij:An X-ray camera for the photography of the reciprocal lattice, inZap. Lab.,15, 1320 (1949).

  62. I. F. Dudavskij andF. I. Čuprinin:Apparatus for X-rays structural analysis, inZap. Lab.,16, 675 and 948 (1950).

  63. V. V. Dmohovskij:The principle of rational construction of X-ray apparatus for industrial uses, inIzv. Akad. Nauk, Ser. Fiz.,15, 265 (1951).

  64. E. E. Flint:Apparatus for demonstrating the law of whole numbers and the setting of crystals, inTru. Inst. Krist., n. 5, 207, (1949).

  65. E. E. Flint:Setting out spheres for structure models, inTru. Inst. Krist., n. 5, 209 (1949).

  66. E. E. Flint:Rationalisation of the method of measuring crystals, inTru. Inst. Krist., n. 5, 149 (1949).

  67. K. A. Ivanov:Microradiography of metals and alloys. Review inŽu. Tehn. Fiz.,19, 1219 (1949). [SA 3672, 1950].

  68. E. Z. Kaminskij andT. I. Stelleckaja:An X-ray camera for the precision determination of lattice constants at high temperatures, inZav. Lab.,16, 691 (1950).

  69. L. S. Kan andB. G. Lazarev:A low temperature X-ray camera, inŽu. Tehn. Fiz.,21, 1542 (1951). [SA 6175, 1952].

  70. V. S. Kogan andB. Ja. Pines:A micro-method for the phase analysis of alloys, inDokl. Akad. Nauk SSSR,87, 967 (1952).

  71. S. S. Kvitka andM. M. Umanskij: X-ray goniometry from polychromatic photographs of a stationary crystal, inŽu. Tehn. Fiz.,20, 901 (1950). [SA 3204, 1951].

  72. S. S. Kvitka andM. M. Umanskij:An X-ray camera for express photographs from polycrystals, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 271 (1951).

  73. S. S. Kvitka, Ju. N. Sokurskij andM. M. Umanskij: X-ray methods of setting crystals, inZap. Lab.,16, 696 (1950).

  74. V. G. Prohvatilov andE. I. Gindin:A vacuum high-temperature camera for X-ray structural analysis, inZap. Lab.,16, 965 (1950).

  75. V. G. Prohvatilov andE. I. Gindin:A demountable ionic X-ray tube of small dimensions for structure analysis, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 277 (1951).

  76. E. M. Rejhrudel andT. A. Titova:Focussing the electron beam in X-ray tubes, inVest. Mosk. Univ. Ser. Fiz. Mat. Nauk, n. 2, 61 (1950).

  77. Ju. G. Sokolov:An X-ray camera for studying submicroscopic structure, inZap. Lab.,16, 693 (1950).

  78. V. P. Teht:A means of obtaining a fine and constant focus in ionic X-ray tubes, inZap. Lab.,16, 328 (1950).

  79. M. M. Umanskij andS. S. Kvitka: X-ray analysis of inorganic crystals, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 147 (1951).

For section 7

  1. G. O. Bagdykjanc:A universal electronograph, inZap. Lab.,16, 1445 (1950).

  2. G. B. Bokij, B. K. Vajnštejn andA. A. Babaréko:The electronographic study and the crystal chemistry of KPtCl3NH3 and KPtBr3NH3, inIzv. Akad. Nauk SSSR, Otdel. Him. Nauk, 667 (1951).

  3. G. I. Distler andZ. G. Pinsker:Electronographic studies of stretched sheets of polyvinyl alcohol, inŽu. Fiz. Him.,24, 1152 (1950).

  4. I. I. Jamzin:Verification of the laws of the atomic scattering of electrons, from the intensities of electronograms, inTru. Inst. Krist., n. 5, 69 (1949).

  5. I. I. Jamzin:High voltage apparatus for electronography, inZap. Lab.,16, 178 (1950).

  6. Z. G. Pinsker:Electron diffraction, (Akad. Nauk, Inst. Krist., 1949), 404 pp.

  7. Z. G. Pinsker:The determination of the elementary cell and space group of kaolinite, inDokl. Akad. Nauk SSSR,73, 107 (1950). [SA 9132, 1950].

  8. Z. G. Pinsker:The application of electronography to chemistry. Review inUsp. Him.,20, 104 (1951).

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  9. M. A. Rumš:The non-equivalence of diffraction photographs of bending and rotating, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 243 (1951).

  10. N. A. Šišakov:Electronographic study of hydroxide layers on the metals Mg, Al, Fe,and Cu, inŽu. Fiz. Him.,26, 106 (1952). [SA 6255, 1953].

  11. N. A. Šišakov:Anomalous lattice constants of very small crystals of certain metals, inŽu. Eksper. Teor. Fiz.,22, 241 (1952). [SA 8575, 1952].

  12. B. K. Vajnštejn:The symmetry of electronograms, inTru. Inst. Krist., n. 5, 7, (1949).

  13. B. K. Vajnštejn:An electronographie investigation of the structure of BaF2, inTru. Inst. Krist., n. 5, 113 (1949).

  14. B. K. Vajnštejn:The determination of oblique cells in electronographie, inDokl. Akad. Nauk SSSR,73, 103 (1950). [SA 9124, 1950].

  15. B. K. Vainštejn andZ. G. Pinsker:Determination of thesposition of hydrogen in the crystal lattice of a paraffin, inDokl. Akad. Nauk SSSR,72, 53 (1950). [SA 7617, 1950].

  16. B. K. Vajnštejn andZ. G. Pinsker:Electronographic study of BaBr2·H2O, inŽu. Fiz. Him.,24, 432 (1950).

  17. B. K. Vajnštejn andZ. G. Pinsker:An electronographic investigation of paraffin, inTru. Inst. Krist., n. 6, 163 (1951).

  18. B. K. Vajnštejn andG. G. Lemmlejn:The orientation of silver on silicon carbide, inTru. Inst. Krist., n. 6, 203 (1951).

  19. B. K. Vajnštejn:Electronograms from textures, inTru. Inst. Krist., n. 6, 173 (1951).

  20. B. K. Vajnštejn:The intensity of reflections in electronograms of oblique textures, inTru. Inst. Krist., n. 6, 193 (1951).

  21. B. K. Vajnštejn:The crystal structures of MnCl2·2H2O, inDokl. Akad. Nauk SSSR,83, 227 (1952). [SA 2829, 1953].

  22. B. K. Vajnštejn:Structural electronography. Review inVest. Akad. Nauk,22, n. 3, 44 (1952).

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  23. Z. G. Pinsker:Electron diffraction. (Translated into English byJ. A. Spink andE. Feigl; 450 pp., Butterworth, London, 1593).

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For section 8

  1. N. S. Akulov andJa. I. Feldštejn:An application of group theory to the analysis of the anisotropy of crystals, inDokl. Akad. Nauk SSSR,70, 593 (1950). [SA 6135, 1950].

  2. G. M. Bartenev:Rigidity of crystals near the melting point, inŽu. Fiz. Him.,24, 1437 (1950).

  3. I. B. Borovskij andP. A. Bezirganjan:Diffraction of X-rays by bent crystals. Dynamic theory-case of transmission, inDokl. Akad. Nauk SSSR,88, 639 (1953).

  4. E. E. Burovaja:Crystals of complex compounds of metals of the platinum group. (9th article: Optical measurements), inTru. Inst. Krist., n. 5, 197 (1949).

  5. E. V. Cinserling:Investigation of pressure figures on glass in transmitted polarised light, inTru. Inst. Krist., n. 5, 131 (1949).

  6. L. I. Cukerman:Microphotography of dark minerals by the illumination of a parabolic mirror, inTru. Inst. Krist., n. 5, 213 (1949).

  7. F. I. Fedorov:Determination of optical parameters of uniaxial crystals by reflected light, inDokl. Akad. nauk SSSR,84, 1171 (1952).

  8. E. E. Flint:Goniometric studies of new substances. 4·NaHAs2O4, inTru. Inst. Krist., n. 5, 205 (1949).

  9. E. E. Flint:Goniometric investigations of new substances: sodium tantalate, 8Na2O·6Ta2O5·3H2O, inTru. Inst. Krist., n. 6, 289 (1951).

  10. A. B. Gilvang:Means of orienting crystals of quartz by striations on a pair of neighboring faces of sharp rhombohedra or so-called «prisms», inTru. Inst. Krist., n. 5, 215 (1949).

  11. H. Ja. Hristov:The transmission of X-rays through a plane parallel-sided plate of crystal, inDokl. Akad. Nauk SSSR,81, 553 and 799 (1951). [SA 5926 and 7313, 1952].

  12. S. T. Konobeevskij andK. P. Mamedov:The anisotropy of the atomic scattering factor for X-rays in crystals of aluminium and diamond, inŽu. Eksper. Teor. Fiz.,21, 953 (1951). [SA 5443, 1952].

  13. V. D. Kuznecov:The method of reciprocal polishing of crystals for determining the relative values of surface forces, inDokl. Akad. Nauk SSSR,84, 984 (1952).

  14. V. D. Kuznecov:The reciprocal grinding of a cube face with other faces of rock salt crystals, inDokl. Akad. Nauk SSSR,84, 1151 (1952).

  15. V. D. Kuznecov:Anisotropy in reciprocal polishing of crystals, inDokl. Akad. Nauk SSSR,85, 63 and 761 (1952).

  16. G. G. Lemmlejn andN. M. Melanholin:On the staining of dichroic crystals of topaz, inTru. Inst. Krist., n. 6, 245 (1951).

  17. G. G. Lemmlejn:The distribution of stain in crystals of quartz, inTru. Inst. Krist., n. 6, 255 (1951).

  18. G. G. Lemmlejn:Spectrophotometric investigation of stained quartzes, inTru. Inst. Krist., n. 6, 269 (1951).

  19. G. P. Majtak:Formula for calculating the X-ray density of crystal substances, inŽu. Fiz. Him.,26, 764 (1952).

  20. N. M. Melanholin:The application of a new model of a polarisation interferometer for measuring the index of refraction of immersion media, inTru. Inst. Krist., n. 5, 137 (1949).

  21. V. I. Odelevskij:The theory of the polarisation of ionic crystals, inŽu. Tehn. Fiz.,20, 129 (1950). [SA 7601, 1950].

  22. A. N. Orlov:Calculation of the dependence on composition of the lattice constant of binary solid solutions, inŽu. Eksper. Teor. Fiz.,21, 1081 (1951). [SA 5942, 1952].

  23. A. N. Orlov:The theory of the elastic constants of binary solid solutions, with cubic lattices, inŽu. Eksper. Teor. Fiz.,21, 1090 (1951). [SA 5943, 1952].

  24. V. N. Protopopov:Photograph from «oblique» planes in the use of a crystal for the reflexion of X-rays, inZap. Lab.,17, 570 (1951).

  25. B. M. Rovinskij andN. V. TyŽnova:The elastic limit as analysis, inŽu. Tehn. Fiz.,20, 676 (1950).

  26. G. M. Sarančina:A simple method of determining the optic sign of non-ferrous minerals on a plane stage without using conoscopy, inVest. Len. Un.,7, n. 1, 108 (1952).

  27. Ja. Ja. Sauka:Precise lattice constants and coefficients of thermal expansion of lead fluoride, inŽu. Fiz. Him.,25, 41 (1951).

  28. A. I. Šepelev, M. N. Ljašenko andI. G. Družinin:Optical constants of CaCl2·4H2Ocrystals, inDokl. Akad. Nauk SSSR,75, 379 (1950). [SA 3187, 1051].

  29. A. V. Šubnikov:The piezoelectric effect in quartz twins, inTru. Inst. Krist., n. 5, 117 (1949).

  30. P. E. Stepanov:The thermal capacity of crystals with high axial elastic anisotropy, inŽu. Fiz. Him.,26, 1642 (1952).

  31. V. V. Tarasov:Metasilicate chains and the theory of thermal capacity, inDokl. Akas. Nauk SSSR,84, 321 (1952). [SA 8842, 1952].

  32. V. V. Tarasov:Hydrogen bands in crystals and glasses, and the quantum theory of the heat capacity of chain and layer structures, inŽu. Fiz. Him.,26, 1374 (1951).

  33. N. D. Topor:Crystals of complex compounds of metals of the platinum group. (10th article), inTru. Inst. Krist., n. 5, 201 (1949).

  34. M. V. Volkenštejn:Theory of the natural optical activity, inŽu. Eksper. Teor. Fiz.,20, 341 (1950). [SA 7178, 1950; see also SA 5754, 1950].

  35. M. V. Volkenštejn andE. K. Bjutner:On the optical activity of crystals, inDokl. Akahd. Nauk SSSR,76, 515 (1951).

  36. M. V. Volkenštejn andE. K. Bjutner:Circular dichroism in crystals, inŽu. Eksper. Teor. Fiz.,23, 584 (1952). [SA 5429, 1953; see also SA 7926, 1950].

  37. M. V. Volkenštejn andO. B. Pticyn:The rotational isomerims theory of the melting of crystalline polymers, inDokl. Akad. Nauk SSSR,86, 677 (1952). [SA 5764, 1953].

  38. A. A. Vorobev:The dependence of electrical strength on crystallographic direction, inDokl. Akad. Nauk SSSR,86, 681 (1952). [SA 5494, 1953].

  39. V. A. Ždanov andV. F. Konusov:The stability of crystal lattices towards displacements, inŽu. Eksper. Teor. Fiz.,20, 3 (1950). [SA 9115, 1950].

  40. V. A. Ždanov andV. F. Konusov:The theory of the mechanical stability of crystal lattices, inŽu. Eksper. Teor. Fiz.,22, 339 (1952). [SA 8557, 1952].

  41. M. P. Želdak:An X-ray method of determining residual first order strains, inZap. Lab.,17, 575 (1951).

For section 9

  1. R. P. Alekseeva andV. I. Kasatočkin:Application of X-ray structure analysis to the study of milk products, inIzv. Akad. Nauk, Ser. Fiz.,15, 222 (1951).

  2. A. I. Avgustinik:The physical chemistry of the silicates (1947, 324 pp.).

  3. N. V. Belov:The crystal chemistry of mineralisers, inDokl. Akad. Nauk SSSR,71, 61 (1950).

  4. N. V. Belov:Some applications of mineraliser theory, inIzv. Akad. Nauk SSSR, Ser. Geol., n. 6, 44 (1951).

  5. G. B. Bokij:The crystal chemistry of the transition series of ammoniates of tetravalent platinum, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 170 (1951).

  6. A. I. Kitakgorodskij:Analysis of the results of X-ray structure analysis of crystals, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 157 (1951).

  7. P. I. Kripjakevič:The relationship between lattices of the types NiAsand Ni2Inand certain orthorhombic lattices, inDokl. Akad. Nauk SSSR,73, 439 (1951). [SA 9829, 1951].

  8. P. I. Kripjakevič:The dependence of the quantitative composition of a phase on the relative atomic radii in one class of intermetallic phases, inDokl. Akad. Nauk SSSR,85, 321 (1952). [SA 5213, 1953].

  9. N. M. Melanholin:The staining of micas, inTr. Inst. Krist., n. 4, 223 (1948).

  10. V. A. Pazuhin:Crystallochemical concepts applied to the electrolytic melting of aluminium, inUsp. Him.,21, 313 (1952).

  11. A. M. Rubinštejn:Roentgenography of heterogeneous catalysts, inUsp. Him.,21, 1287 (1952).

  12. V. S. Sobolev:Introduction to the mineralogy of the silicates (Lvov, 1949).

  13. L. V. Tauson:The question of the energetics of heterovalent isomorphism in the silicates, inDokl. Akad. Nauk SSSR,72, 347 (1950).

  14. A. A. Vlasov andJ. A. Jakovlev:The theory of the crystalline state, inŽu. Eksper. Teor. Fiz.,20, 1109 (1950). [SA 7383, 1951].

  15. G. S. Ždanov andZ. P. Razmanova: X-ray analysis of catalysts on an aluminium hydroxide base, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 202 (1951).

  16. G S. Ždanov andA. A. Rusakov:The isomorphous series of double oxides A2BO5 with the structure of the anosovite type, inDokl. Akad. Nauk SSSR,82, 901 (1952).

  17. V. A. Ždanov andE. I. Čeglokov:The theory of tetragonal binary lattices, inŽu. Fiz. Him.,26, 326 (1952).

  18. G. S. Ždanov: K. I. Tobelko andZ. V. Zvonkova: X-ray determination of the chemical formula of the sodium salt of the thiocyanate complex of nickel, inDokl. Akad. Nauk SSSR,88, 679 (1953).

  19. A. L. Zajdes:Oriented adsorption of salts into collagen, inDokl. Akad. Nauk SSSR,73, 1059 (1950). [SA 8300, 1950].

For section 10

  1. G. V. Aleksandrov:Paramorphosis of quartz to tridymite, inZap. Vse. Miner. Obšč.,81, 209 (1952).

  2. O. M. Anšeles:Growing crystals from solution and the laminar formation of faces, inZap. Vse. Miner., Obšč.,81, 151 (1952).

  3. E. N. Belova andN. Ju. Ikornikova:Laue photographs of crystals fo synthetic corundum, inDokl. Akad. Nauk SSSR,81, 829 (1951). [SA 6893, 1952].

  4. G. B. Bokij:Crystallising strength of octahedral faces of alum, inTru. Inst. Krist., n. 5, 143 (1949).

  5. G. F. Červiakovskij:Experiments of the recrystallisation of some suplhide minerals, inDokl. Akad. Nauk SSSR,83, 737 (1952).

  6. E. V. Cinserling:Enlargement of monocrystalline regions of quartz by the method of β⇌α transformations, inTru. Inst. Krist., n. 4, 197 (1948).

  7. E. V. Cinserling:Means of determining the suitability of quartz in artificially strengthened monocrystalline regions, inTru. Inst. Krist., n. 4, 199 (1948).

  8. E. V. Cinserling:Twinning of flawed quartz on β−α−β transformations, inTru. Inst. Krist., n. 4, 250 (1948).

  9. E. V. Cinserling:Cracking of plates of quartz at temperatures of 200–600 °C, inTru. Inst. Krist., n. 4, 290 (1948).

  10. V. I. Danilov andD. E. Ovsienko:On the creation of centres of crystallisation in supercooled liquids. XI.Growth of centres on activated impurities, inŽu. Eksper. Teor. Fiz.,21, 879 (1951). [SA 5431, 1952].

  11. V. V. Dolivo-Dobrovolskij:Several properties of the principal direction in twin crystals, inZap. Vse. Miner. Obšč.,81, 89 (1952).

  12. I. A. Gindin andV. I. Starčev:Twinning in bismuth, inŽu. Eksper. Teor. Fiz.,20, 738 (1950). [SA 7373, 1951].

  13. Ja. V. Grečnyj:Eutectic crystallisation of binary alloys and quasi-eutectic structures, inDokl. Akad. Nauk SSSR,84, 535 (1952).

  14. Ja. V. Grečnyj:The probability of the formation of crystal nuclei in binary alloys of eutectic type, inDokl. Akad. Nauk SSSR,84, 89 (1952).

  15. A. T. Grigorev:Equation for the crystallisation surfaces of an inert component in a ternary system containing one binary compound, inDokl. Akad. Nauk SSSR,83, 231 (1952).

  16. G. G. Gruškin andP. L. Prihidko:On the change of chemical composition, concentration and pH,of gas/liquid in a series of successive generations of fluorite, inZap. Vse. Miner. Obšč.,81, 120 (1951).

  17. N. Ju. Ikornikova:Mosaic in crystals of synthetic corundum, inDokl. Akad. Nauk SSSR,81, 403 (1951). [SA 6158, 1952].

  18. G. P. Ivancov:Growth of spherical and acicular crystals in a binary alloy, inDokl. Akad. Nauk SSSR,83, 573 (1952).

  19. I. S. Kajnarskij andL. I. Karajkin:Transformation of quartz into tridymite, inDokl. Akad. Nauk SSSR,86, 137 (1952).

  20. A. P. Kapustin:Obtaining textures in crystalline substances by means of ultrasonic waves, inDokl. Akad. Nauk SSSR,71, 451 (1950). [SA 5639, 1950].

  21. A. P. Kapustin:Experimental investigation of the influence of ultrasonic waves on the kinetic of crystallisation, inIzv. Akad. Nauk SSSR, Ser. Fiz.,14, 357 (1950). [SA 3906, 1951].

  22. A. P. Kapustin:The effect of VHF sound on the speed of crystallisation, inVest. Akad. Nak,21, n. 12, 70 (1951).

  23. A. P. Kapustin:Crystallisation of organic substances under the influence of ultrasonic waves, inŽu. Teh. Fiz.,22, 765 (1952). [SA 8550, 1952].

  24. I. I. Kitajgorodskij:A metal-cutting synthetic stone-microlite, inPriroda, n. 5, 101 (1952).

  25. M. V. Klassen-Nekljudova andA. P. Kapustin:The influence of ultrasound on the distribution of strains in single crystals of a solid solutions of bromide and iodide of thallium, inDokl. Akad. Nauk SSSR,77, 1019 (1951). [SA 6801, 1952].

  26. J. Kutina:Notes concerning the influence of environment on crystal morphology, inZap. Vse. Miner. Obšč.,81, 96 (1952).

  27. G. G. Lemmlejn:Sectorial construction of crystals, (Akad. Nauk, Inst. Krist., 1948, 40 pp.).

  28. G. G. Lemmlejn:Interaction between growing crystals of porphyry quartz, inTru. Inst. Krist., n.4, 185 (1948).

  29. G. G. Lemmlejn:The relationship between the present-day and original volumes of liquid inclusions in minerals, inDokl. Akad. Nauk SSSR,72, 775 (1950).

  30. G. G. Lemmlejn:Circumvention of obstacles by the front of the growing layer of a crystal face, inDokl. Akad. Nauk SSSR,84, 1167 (1952). [SA 5768, 1953].

  31. G. G. Lemmlejn:Migration of a fluid inclusion in a crystal in the direction of a heat source, inDokl. Akad. Nauk SSSR,85, 325 (1952). [SA 5192, 1953].

  32. G. G. Lemmlejn andM. O. Klija:New data on the deposition of crystal substance on the wells of a liquid inclusion, inDokl. Akad. Nauk SSSR,82, 765 (1952).

  33. G. G. Lemmlejn andM. O. Klija:Peculiarities of the healing of cracks in a crystal with lowering temperature conditions, inDokl. Akad. Nauk SSSR,87, 957 (1952).

  34. B. Ja. Ljubov′:Rate of growth of a nucleus of a new phase on isothermal decomposition of a solid solution, inDokl. Akad. Nauk SSSR,72, 273 (1950). [SA 7590, 1950].

  35. V. A. Mokievskij andI. A. Mokievskaja:The influence of traces of borax in solution on the habit and rate of growth of crystals of MgSO4·7H2O, inZap. Vse. Miner. Obšč.,79, 15 (1950).

  36. V. A. Mokievskij andS. M. Semjuk:Skeletal growth of crystals in a viscous medium, inZap. Vse. Miner. Obšč.,81, 100 (1952).

  37. V. N. Rodigin:Theory of crystallisation, inŽu. Tehn. Fiz.,22, 1356 (1952). [SA 6305, 1953].

  38. I. I. Šafranovskij:The forms of crystals inTru. Inst. Krist., n.4, 13 (1948).

  39. I. I. Šafranovskij, V. I. Miheev. andV. A. Mokievskij:Existence of eichwaldite inside eremeevite, inZap. Vse. Miner. Obšč.,81, 28 (1952).

  40. N. N. Šeftal:A statistical method of cultivating monocrystals from solution, inTru. Inst. Krist., n.4, 231 (1948).

  41. A. V. Šubnikov:Formation of crystals. (Akad. Nauk, 1947, 74 pp).

  42. E. O. Švajkovskaja:The application, of X-rays for determining the texture of asbestos fibres, inIzv. Akad. Nauk SSSR, Ser. Fiz. 15, 218 (1951).

  43. A. V. Stepanov:Mechanical twinning of quartz, inŽu. Eksper. Teor. Fiz.,20, 438 (1950). [SA 7589, 1950].

  44. A. V. Stepanov andE. A. Milkamanovič:The phenomenon of artificial displacement. IV.The growth of centres of slip, inŽu. Eksper. Teor. Fiz.,21, 401 (1951). [SA 1304, 1952].

  45. A. V. Stepanov andE. A. Milkamanovič:The phenomenon of artificial displacement. V. The influence of solution on artificial slip formation, inŽu. Eksper. Teor. Fiz.,21, 409 (1951). [SA 1305, 1952].

  46. N. E. Vedeveeva andV. S. Grum-Gržimajlo:Thermal colouring of rosy tourmalines, inTru. Inst. Krist., n.4, 215 (1948).

  47. I. L. Zagjanskij, G. V. Samsonov andN. V. Popova:The problem of obtaining single crystals of boron carbide, inDokl. Akad. Nauk. SSSR,74, 723 (1950). [SA 3192, 1951].

  48. S. Ja. Zalivadnyj:Formation of slip lines in NaNO3 crystals, inDokl. Akad. Nauk SSSR,81, 1063 (1951). [SA 7601, 1952].

  49. G. S. Ždanov andV. A. Pospelov:Polytypy of crystals of K4Fe(CN)6·3H2O inTru. Inst. Krist., n.4, 175 (1948).

For section 11

  1. D. L. Ageeva andN. D. Nesterova:X-ray investigation of the creep of monocrystals of lead, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 125 (1951).

  2. N. V. Ageeva andL. N. Gusseva:Experimental investigation of the electron density in crystals. 5. The electron density in Mg2Si, inIzv. Akad. Nauk SSSR, Otdel Him. Nauk,31 (Jan.–Feb. 1952).

  3. I. L. Aptekar:The structure of the ordered solid solutions Cu/Auand Cu/Pt., inŽu. Eksper. Teor. Fiz.,21, 910 (1951). [SA 6193, 1952].

  4. M. P. Arbuzov:The crystal structure of carbide in carbon steel at various stages of tempering, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 16 (1951).

  5. V. I. Arharov:Some questions of orientational and dimensional correspondence in the martensite transformation of sustenite in steel, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 9 (1951).

  6. G. I. Babuškina, N. F. Laško andV. I. Prosvirin:Precipitation of a super-saturated solid solution of deformed austenite, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 76 (1951).

  7. Ju. A. Bagarjackij, E. V. Koloncova andN. V. Rusakova-Lukovskaja:X-ray study of the ageing of aluminium alloys, inŽu. Tehn. Fiz.,21, 658 (1951).

  8. Ja. A. Bagarjackij:Calculation of the intensity of diffuse scattering of X-rays for ageing alloys, inDokl. Akad. Nauk SSSR,77, 45 (1951). [SA 6570, 1951].

  9. Ja. A. Bagarjackij:The mechanism of the artificial ageing of the alloy Al/Cu/Mg, inDokl. Akad. Nauk SSSR,87, 397 (1952).

  10. Ja. A. Bagarjackij:The nature of the natural ageing of aluminium alloys, inDokl. Akad. Nauk SSSR,87, 559 (1952).

  11. N. V. Belov:The nature of the austenite phase, inTru. Inst. Krist., n. 6, 141 (1951).

  12. A. V. Beznosikova andV. I. Iveronova:Atomic diffraction of X-rays in Cu/Znalloys, inŽu. Tehn. Fiz.,20, 666 (1950). [SA 3210, 1951].

  13. A. I. Bublik andB. Ja. Pines:Phase transition with change of thickness in thin metallic plates, inDokl. Akad. Nauk SSSR,87, 215 (1952).

  14. N. T. Čebotarev:The structure of complex carbides in high-speed steels, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 39 (1951).

  15. A. M. Elistratov:An X-ray method of studying the initial stages of ageing in polycrystalline alloys- the study of anomalous scattering in specimens with large crystals, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 60 (1951).

  16. A. M. Elistratov:Scattering of X-rays by crystals of an ageing alloy, inDokl. Akad. Nauk SSSR,87, 581 (1952). [SA 1971, 1953].

  17. A. M. Elistratov, S. D. Finkelštejn andT. Ju. Goldštejn:An X-ray study of the initial stages of ageing in beryllium bronze, inDokl. Akad. Nauk SSSR,88, 669 (1953).

  18. M. Ja. Fuks andS. S. Djačenko:An X-ray study of cold-working in semi-pure, rapidly turned steel, inIzv. Akad. Nauk SSSR, Ser. Fiz.,15, 106 (1951).

  19. E. I. Gladyševskij:The crystal structure of Cu 4 MgSn, inDokl. Akad. Nauk SSSR,85, (1952).

  20. A. P. Guljaev andJa. E. Sančuk:An X-ray study of high chrome steel, inŽu. Tehn. Fiz.,22, 1718 (1952).

  21. V. A. Il'ina andV. K. Krickaja:Causes of lowered intensity of X-ray interferences in martensite, inDokl. Akad. Nauk SSSR,85, 773 (1952).

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  1. Birkbeck College Research Laboratory, London, England

    A. L. Mackay

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An erratum to this article is available at http://dx.doi.org/10.1007/BF02813786.

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Mackay, A.L. Recent Soviet work in the field of crystallography. Nuovo Cim 10 (Suppl 4), 387–414 (1953). https://doi.org/10.1007/BF02781132

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