List of publications of Mykola F. Kharchenko
1. N. Kharchenko and V. Eremenko, A technique for investigating the Faraday effect in pulsed magnetic fields. Journal of Applied Spectroscopy, 1966. 5(1): p. 5-7.
2. N. Kharchenko and V. Eremenko, MAGNETORESONANCE FARADAY EFFECT IN ANTIFFRROMAGNETS MNF2 AND RBMNF3. SOVIET PHYSICS SOLID STATE, USSR, 1967. 9(6): p. 1302-+.
3. N. Kharchenko, V. Eremenko, and L. Belyi, Faraday effect in the iron garnet Y3Fe5O12: Ho3+. Soviet Journal of Experimental and Theoretical Physics, 1968. 26: p. 869.
4. N. Kharchenko, L. Belyi, and O. Tutakina, CHANGE OF FARADAY EFFECT IN YTTRIUM IRON GARNET IN A STRONG MAGNETIC FIELD. 1969. p. 2221-+.
5. N. Kharchenko and V. Eremenko, Trudy FTINT AN Ukr. SSR. Fizika Kondensirovannogo Sostoyaniya, 1969(4): p. 144-202.
6. N. Kharchenko, V. Eremenko, and L. Belyi, Faraday Effect and Reversal of Magnetic Sublattices of Rare-earth Iron Garnet. SOVIET PHYSICS JETP, 1969. 28(2).
7. V. Eremenko, et al., Magnetic and magnetooptic effects under phase transitions in antiferromagnets. IEEE Transactions on Magnetics, 1972. 8(3): p. 645-646.
8. N. Kharchenko, L. BELYI, and V. Eremenko, MAGNETO-OPTICAL OBSERVATION OF MAGNETIC STRUCTURE INHOMOGENEITIES IN FECO3 ANTIFERROMAGNET AT METAMAGNETIC CONVERSION. IZVESTIYA AKADEMII NAUK SSSR SERIYA FIZICHESKAYA, 1972. 36(6): p. 1230-+.
9. N. Kharchenko, V. Eremenko, and O. Tutakina, Magnetic birefringence and the domain structure of antiferromagnetic cobalt carbonate. Soviet Phys. JETP, 1973. 37: p. 672-677.
10. V. Eremenko, et al., Magnetic and Magnetooptical Effects at the Phase Transition in Antiferromagnetic Ferrous Carbonate, in Low Temperature Physics-LT 13. 1974, Springer. p. 365-367.
11. N. Kharchenko, V. Eremenko, and S. Gnatchenko, Visual observation of coexisting phase in the magnetic phase transition in noncollinear GdIG. Soviet Journal of Experimental and Theoretical Physics Letters, 1974. 20: p. 280.
12. Kharchenko, N., V. Eremenko, and S. Gnatchenko, Investigation of orientation transitions and coexistence of magnetic phases in the cubic ferrimagnet GdlG. Zh. eksp. teor. fiz, 1975. 69: p. 1697-1709.
13. N. Kharchenko, et al., Magnetooptical studies of the nonlinear magnetic structures of Gd ferrite garnet. Zhurnal Eksperimental'noi i Teoreticheskoi Fiziki, 1975. 68(3): p. 1073-90.
14. N. Kharchenko, et al., Magnetooptical investigation of the noncollinear magnetic structure of gadolinium iron garnet. Zh. Eksp. Tear. Fiz., 1975. 68: p. 1073.
15. V. Eremenko, N. Kharchenko, and S. Gnatchenko. Spin-orientation phase transitions in cubic ferrimagnetic GdIG: magnetooptic and visual investigation. in AIP (Am. Inst. Phys.) Conf. Proc.;(United States). 1976. Physico-Technical Inst. of Low Temperatures, Kharkov.
16. S. Gnatchenko and N. Kharchenko, Equivalent noncollinear structures in the cubic ferrimagnet GdlG induced by a magnetic field. Zh. Eksp. Tear. Fiz., 1976. 70: p. 1379.
17. S. Gnatchenko and N. Kharchenko, Magnetic field induced equivalent noncollinear structures in the cubic ferrimagnetic Gadolinium ferrite garnets. Zhurnal Ehksperimental'noj i Teoreticheskoj Fiziki, 1976. 70(4): p. 1379-1393.
18. V. Eremenko and N. Kharchenko, Broadening of the Domain Wall in a Uniaxial Epitaxial Ferromagnet on the Formation of a Non-Collinear Magnetic Structure. Fiz. Tverd. Tela, 1977. 19(7): p. 2210-2211.
19. V. EREMENKO and N. KHARCHENKO, QUESTION OF BROADENING OF DOMAIN-WALL IN UNIAXIAL EPITAXIAL FERROMAGNET AT INDUCTION OF NONCOLLINEAR MAGNETIC-STRUCTURE. 1977, MEZHDUNARODNAYA KNIGA 39 DIMITROVA UL., 113095 MOSCOW, RUSSIA. p. 2210-2211.
20. V. Eremenko and N. Kharchenko, Problem of Domain Wall" Broadening" in a Uniaxial Epitaxial Ferrimagnet With an Induced Canted Magnetic Structure. Soviet Physics-Solid State, 1977. 19(7): p. 1294-1295.
21. S. Gnatchenko et al., Magnetic phase diagram of an uniaxial epitaxial ferromagnet (magnetooptic and visual studies). Ukrainskij Fizicheskij Zhurnal, 1977. 22(4): p. 555-564.
22. S. Gnatchenko, et al., MAGNETIC PHASE DIAGRAM OF UNIAXIAL EPITAXIAL FERRIMAGNETIC (MAGNETOOPTIC AND VISUAL STUDIES). Óêðàèíñêèé ôèçè÷åñêèé æóðíàë, 1977. 22(4): p. 564.
23. N. Kharchenko, et al., Magnetic field induced intermediate state in dysprosium orthoferrite. Solid State Communications, 1977. 22(7): p. 463-465.
24. N. Kharchenko, et al., Magnetic intermediate state in dysprosium orthoferrite. JETP Lett, 1977. 25(5).
25. N. Kharchenko, V. Eremenko, and L. Belyi, Lowering of the optical class of an antiferromagnetic crystal, induced by a longitudinal magnetic field. JETP LETTERS, 1978. 28(6): p. 324-327.
26. N. Kharchenko, V. Eremenko, and O. Tutakina, Light birefringence bilinear in the ferromagnetic and antiferromagnetic vectors in cobalt carbonate. JETP Lett, 1978. 27(8).
27. V. Eremenko and N. Kharchenko, Field-induced spin-orientational phase transitions in Néel ferrimagnets. I. Phase Transitions: A Multinational Journal, 1979. 1(1): p. 61-98.
28. V. Eremenko, N. Kharchenko, and L. Beliy, Visualization of the 180‐degree antiferromagnetic domains by means of new magnetooptical effect. Journal of Applied Physics, 1979. 50(B11): p. 7751-7753.
29. N. Kharchenko, V. Eremenko, and L. Belyi, Visual observation of 180-degree antiferromagnetic domains. JETP LETTERS, 1979. 29(7): p. 392-395.
30. V. Eremenko and N. Kharchenko, Field-induced spin-orientational phase transitions in the Néel ferrimagnets. II. Phase Transitions: A Multinational Journal, 1980. 1(3): p. 207-267.
31. V. Eremenko, et al., Birefringence of the antiferromagnetic crystals linear in a magnetic field. Journal of Magnetism and Magnetic Materials, 1980. 15: p. 791-792.
32. S. Gnatchenko, N. Kharchenko, and R. Shimchak, Visual and magnetooptic studies of the co-existence of magnetic phases near the Morin temperature in dysprosium orthoferrite. Akademiia Nauk SSSR Izvestiia Seriia Fizicheskaia, 1980. 44: p. 1460-1472.
33. S. Gnatchenko, N. Kharchenko, and R. Shimchak, Visual and magnetooptical study of magnetic phase coexistence in dysprosium orthoferrite near the Morin temperature. Izvestiya Akademii Nauk SSSR, Seriya Fizicheskaya, 1980. 44(7): p. 1460-1472.
34. N. Kharchenko and L. Belyi, VISUALIZATION OF 180-DEGREES-ANTI-FERROMAGNETIC DOMAINS IN MAGNETIC-FIELD. 1. TETRAGONAL COLINEAR ANTI-FERROMAGNETIC SUBSTANCES. IZVESTIYA AKADEMII NAUK SSSR SERIYA FIZICHESKAYA, 1980. 44(7): p. 1451-&.
35. V. Eremenko, N. Kharchenko, and L. Beliy, Inducing of the canted structure in tetragonal antiferromagnets with rhombic one-ion anisotropy by a longitudinal magnetic field. Physica B+ C, 1981. 108(1-3): p. 1073-1074.
36. V. Eremenko, et al., WEAK FERRIMAGNETISM OF CSMNF3-POLARIZATION SPECTROSCOPIC AND VISUAL STUDIES. FIZIKA NIZKIKH TEMPERATUR, 1981. 7(11): p. 1430-1439.
37. S. Gnatchenko, V. Eremenko, and N. Kharchenko, Antiferromagnetic domain boundary as a line for nucleation of a weakly ferromagnetic phase from the antiferromagnetic one in dyprosium orthoferrite. Sov. J. Low. Temp. Phys., 1981. 7: p. 742.
38. S. Gnatchenko, V. Eremenko, and N. Kharchenko, ANTI-FERROMAGNETIC BOUNDARY AS A NUCLEATION LINE OF THE WEAK FERROMAGNETIC PHASE DURING THE AFM-] WFM PHASE-TRANSITION IN DISPROSIUM ORTHO-FERRITE. FIZIKA NIZKIKH TEMPERATUR, 1981. 7(12): p. 1535-1543.
39. N. Kharchenko and S. Gnatchenko, LINEAR MAGNETO-OPTIC EFFECT AND VISUAL OBSERVATION OF ANTI-FERROMAGNETIC DOMAINS IN ORTHORHOMBIC DYFEO3 CRYSTAL. FIZIKA NIZKIKH TEMPERATUR, 1981. 7(4): p. 475-493.
40. V. Eremenko, N. Kharchenko, and L. Beliy, Indirect detection of cooling of antiferromagnetic iron carbonate by adiabatic magnetisation. Journal of Physics C: Solid State Physics, 1982. 15(20): p. 4379.
41. N. Kharchenko, V. Eremenko, and L. Belyi, Magnetooptic studies on the noncollinear state induced by a magnetic field in antiferromagnetic cobalt fluoride. Zh. Éksp. Teor. Fiz, 1982. 82: p. 827.
42. N. Kharchenko, V. Eremenko, and L. Belyi, Magnetooptical investigations of the noncollinear state induced in antiferromagnetic cobalt fluoride by a longitudinal magnetic field. JETP, 1982. 55(3): p. 490.
43. N. Kharchenko, V. YEREMENKO, and L. BELY, MAGNETO-OPTICAL INVESTIGATIONS OF THE NON-COLLINEAR STATE OF ANTI-FERROMAGNETIC COBALT FLUORIDE INDUCED BY A LONGITUDINAL MAGNETIC-FIELD. ZHURNAL EKSPERIMENTALNOI I TEORETICHESKOI FIZIKI, 1982. 82(3): p. 827-843.
44. D. Kirzhnits, N. Kharchenko, et al., Scattering theory for composite particles. JETP, 1982. 55(3): p. 393.
45. S. Gnatchenko, et al., Photoinduced linear birefringence in a crystal with cooperative ordering of Jahn–Teller distortions. JETP Lett., 1983. 38: p. 233-237.
46. V. Eremenko and N. Kharchenko, The linear magneto-optic effect in magnetically ordered crystals/Ed. IM Khalatnikov. Sov. Sci. Rev, 1984. 5: p. 1.
47. V. Eremenko, S. Gnatchenko, and N. Kharchenko, Linear magnetooptic effect[LMOE] in tetragonal antiferromagnetic garnet Ca sub 3 Mn sub 2 Ge sub 3 O sub 1 sub 2. Acta Physica Polonica, A, A, 1985. 68(3): p. 419-24.
48. N. Kharchenko, A. Bibik, and V. Eremenko, Quadratic magnetic rotation of the polarization plane of light in the antiferromagnet CoF 2. JETP Lett, 1985. 42(11).
49. N. Kharchenko, et al., MAGNETO-OPTICAL DETERMINATION OF THE MAGNETIC POINT GROUP OF CA3MN2GE3O12. 1985, 47 LENIN AVE, KHARKOV, UKRAINE 310164. p. 215-218.
50. N. Kharchenko, S. Gnatchenko, and R. Szymczak, Magnetooptic estimation of the magnetic anisotropy constants in antiferromagnetic DyFeO sub 3. Acta Physica Polonica, A, A, 1985. 68(2): p. 347-55.
51. Szewczyk, A., N. Kharchenko, et al., Magnetic properties of (Tm, Bi) 3 (Fe, Ga) 5O12 garnet films in the vinicity of a compression temperature. Acta physica polonica. A, 1985. 67(5): p. 877-884.
52. V. Eremenko, N. Kharchenko, et al., Magnetooptical determination of the MnGeG magnetic point group. Journal of Magnetism and Magnetic Materials, 1986. 54: p. 1397-1398.
53. S. Gnatchenko, et al., Spontaneous phase transitions and optical anisotropy in manganese germanium garnet (Ca 3 Mn 2 Ge 3 O 12). Soviet Physics Journal of Experimental and Theoretical Physics, 1986. 63: p. 102-109.
54. S. Gnatchenko, et al., SPONTANEOUS PHASE-TRANSITIONS AND OPTICAL ANISOTROPY IN THE MANGANESE-GERMANIUM GARNET CA3MN2GE3O12. ZHURNAL EKSPERIMENTALNOI I TEORETICHESKOI FIZIKI, 1986. 90(1): p. 179-191.
55. N. Kharchenko, et al., MAGNETOOPTICAL DETERMINATION OF EXCHANGE INTERACTION PARAMETERS IN AN ANTIFERROMAGNETIC FERROUS CARBONATE. FIZIKA NIZKIKH TEMPERATUR, 1986. 12(12): p. 1255-1262.
56. V. Eremenko, et al., New magnetic phase transitions in DyFeO3. EPL (Europhysics Letters), 1987. 4(11): p. 1327.
57. V. Eremenko and N. Kharchenko, Onsager relationen. Physics Reports, 1987. 155: p. 379.
58. V.V. Eremenko and N. Kharchenko, Magneto-optics of antiferromagnets. Physics Reports, 1987. 155(6): p. 379-401.
59. S.L. Gnatchenko, N. Kharchenko, et al., DYNAMIC PROPERTIES OF INTERPHASE DOMAIN-WALL IN DISPROSIUM ORTHO-FERRITE. Acta Physica Polonica: A, 1987. 72: p. 307.
60. MIKHEEV, V., et al., 24 USSR CONFERENCE ON LOW-TEMPERATURE PHYSICS (TBILISI, 8-10 SEPTEMBER, 1986). 1987, 47 LENIN AVE, KHARKOV, UKRAINE 310164.
61. K. Piotrowski, N. Kharchenko, et al., PHASE-TRANSITIONS IN HOFE0. 95AL0. 05O3 SINGLE-CRYSTALS. ACTA PHYSICA POLONICA A, 1987. 72(2): p. 343-346.
62. V. Eremenko, et al., MAGNETIC-FIELD INDUCED 1ST-ORDER TRANSITIONS IN DYSPROSIUM ORTHO-FERRITE. JOURNAL DE PHYSIQUE, 1988. 49(C-8): p. 919-920.
63. V. Eremenko, et al., Magnetic field induced first-order transitions in dysprosium orthoferrite. Le Journal de Physique Colloques, 1988. 49(C8): p. C8-919-C8-920.
64. V. Eremenko, et al., MAGNETO-OPTICAL VISUALIZATION OF CRYSTAL TWINS IN TETRAGONAL ANTIFERROMAGNET Ca3Mn2Ge3O12. Le Journal de Physique Colloques, 1988. 49(C8): p. C8-967-C8-968.
65. N. Kharchenko, et al., Magnetic circular dichroism in antiferromagnetic cobalt fluoride. Zh. Eksp. Teor. Fiz, 1988. 94: p. 349.
66. K. Piotrowski, et al., Effect of magnetostriction on the domain structure in DyFeO/sub 3/single crystals. IEEE Transactions on Magnetics, 1988. 24(2): p. 1701-1703.
67. A. Bibik, N. Kharchenko, and S. Petrov, MAGNETIZATION REVERSAL OF NONCENTROANTISYMMETRIC ANTIFERROMAGNETIC COBALT FLUORIDE AND IRON FLUORIDE-CRYSTALS. FIZIKA NIZKIKH TEMPERATUR, 1989. 15(12): p. 1280-1289.
68. V. Eremenko, et al., Magneto-Optics and Spectroscopy of Antiferromagnets (Naukova Dumka, Kiev, 1989). 1989.
69. S. Gnatchenko, A. Chizhig, and N. Kharchenko, Effect of phase boundary transformation on the velocity of its steady-state motion in DyFeO# 73. Soviet Journal of Low Temperature Physics(English Translation), 1989. 15(3): p. 170-3.
70. S. Gnatchenko, A. Chizhik, and N. Kharchenko, The effect of interphase wall transformation on the velocity of its stationary motion in DyFeO sub (3). Low Temperature Physics, 1989. 15(3): p. 303-310.
71. S. Gnatchenko, N. Kharchenko, and V. Bedarev, Photoinduced linear birefringence and cooperative Jahn-Teller effect in manganese germanium garnets. Soviet Journal of Low Temperature Physics(English Translation), 1989. 15(6): p. 353-5.
72. S. Gnatchenko, et al., Magneto-optical studies of HT phase diagram for DyFeO3 (H∥ a). Journal of magnetism and magnetic materials, 1989. 81(1-2): p. 125-132.
73. S. Gnatchenko, et al., Magnetic phase transitions induced by the H=(H x, H y, O) field in dysprosium orthoferrite. Fizika Nizkikh Temperatur, 1989. 15(8): p. 868-874.
74. N. Kharchenko, S. Gnatchenko, and A. Chizhik, Formation kinetics of a weak ferromagnetic domain from an AFM domain wall in DyFeO3. Journal de Physique, 1989. 50(10): p. 1153-1156.
75. A. Mil'ner, et al., La 2 CuO 4: photoinduced variation of optical anisotropy. Sverkhprovodimost': Fizika, Khimiya, Tekhnika, 1989. 2(7): p. 98-101.
76. A. Mil'ner and N. KHARCHENKO, PHOTOSENSITIVITY OF LA2CUO4 SINGLE-CRYSTAL SURFACE-OPTICAL POLARIZATION STUDIES. FIZIKA NIZKIKH TEMPERATUR, 1990. 16(5): p. 662-664.
77. A. Chizhik, S. Gnatchenko, and N. Kharchenko, The influence of defects on interphase wall motion in dysprosium orthoferrite. Fizika Nizkikh Temperatur, 1991. 17(1): p. 94-99.
78. A. Chizhik, S. Gnatchenko, and N. Kharchenko, Influence of defects on the motion of the phase boundary[PB] in dysprosium orthoferrite. Soviet Journal of Low Temperature Physics(English Translation), 1991. 17(1): p. 50-3.
79. S. Gnatchenko and N. Kharchenko, Liner magnetostriction effect on interfaces orientation in dysprosium orthoferrite. Zhurnal Ehksperimental'noj i Teoreticheskoj Fiziki, 1991. 99(3): p. 874-886.
80. S. Gnatchenko, S., N. Kharchenko, and K. Petrovski, Influence of the linear magnetostriction on the orientation of phase boundaries in DyFeO sub 3. Zhurnal Eksperimental'noi i Teoreticheskoi Fiziki, 1991. 99(3): p. 874-86.
81. S. Gnatchenko, S., et al., Influence of the linear magnetostriction on the orientation of phase boundaries in dysprosium orthoferrite. Zh. Eksp. Teor. Fiz, 1991. 99: p. 886.
82. N. Kharchenko, V. Bedarev, and D. PARSONS, Formation of stripe antiferromagnetic domains in a Ca-Mn-Ge garnet in a region of interference of orthogonally polarized light beams. JETP LETTERS C/C OF PIS'MA V ZHURNAL EKSPERIMENTAL'NOI TEORETICHESKOI FIZIKI, 1992. 56: p. 345-345.
83. A. Mil'Ner, et al., Magnetic circular dichroism in YBa2Cu3O (7-x) films. Fizika Nizkikh Temperatur, 1992. 18: p. 1293-1297.
84. V. Bedarev, N. Kharchenko, et al. Preparation Of The Predetermined Time-reversed antiferromagnetic Domain Structures in CaMnGe-garnet. in Magnetics Conference, 1993. INTERMAG'93., Digest of International. 1993. IEEE.
85. N. Kharchenko, and V. Bedarev, Effect of nonlinear polarization of light on magnetization reversal in an antiferromagnetic Ca-Mn-Ge garnet crystal. Low Temperature Physics, 1993. 19: p. 52-56.
86. N. Kharchenko and V. BEDAREV, EFFECT OF LINEARLY POLARIZED-LIGHT ON REVERSAL OF MAGNETIZATION OF AN ANTIFERROMAGNETIC CRYSTAL OF A CA-MN-GE-GARNET. FIZIKA NIZKIKH TEMPERATUR, 1993. 19(1): p. 72-78.
87. A. Milner, N. Kharchenko, and O. MilosIavskaya, Magneto-optical studies of the HTSC materials. PHYSICS IN UKRAINE, 1993: p. 178.
88. A. Milner, et al., Magnetic dichroism of YBaCuO films. 1993.
89. A. Milner,et al., Magnetic circular dichroism properties of Y-Ba-Cu-O transparent films. Physica C: Superconductivity, 1993. 209(1-3): p. 225-228.
90. N. Kharchenko, The linear magneto-optic effect as a manifestation of a higher order magnetoelectric effect. Ferroelectrics, 1994. 162(1): p. 173-189.
91. S. Gnatchenko, et al., Staggered magnetization reversal of orthorhombic noncentroantisymmetric antiferromagnet Dy Fe O 3. Fizika Nizkikh Temperatur, 1995. 21(9): p. 956-965.
92. S. Gnatchenko, et al., Magnetization reversal of orthorhombic noncentroantisymmetric antiferromagnet DyFeO3. Low Temperature Physics, 1995. 21: p. 736-743.
93. N. Kharchenko, et al., Reflectance magnetic circular dichroism spectra of RE2CuO4. Journal of magnetism and magnetic materials, 1995. 140: p. 1281-1282.
94. N. Kharchenko, R. Szymczak, and M. Baran, Quadratic in field contribution to the magnetization of antiferromagnetic CoF2. Journal of magnetism and magnetic materials, 1995. 140: p. 161-162.
95. A. Milner, et al., ‘Soft’and ‘rigid’photomagnetism in YIG: Co films measured by linear dichroism. Journal of magnetism and magnetic materials, 1995. 140: p. 2113-2114.
96. N.F. Kharchenko, et al., Successive structural phase transformation of Jahn-Teller type in KDyMo 2 O 8 crystal. Czechoslovak Journal of Physics, 1996. 46: p. 2141-2142.
97. O. Miloslavskaya, N. Kharchenko, et al., Magnetooptically detected electric-dipole allowed electron transitions in the R 3+ ions in R 2 CuO 4 (R= Pr, Nd, Sm, Eu and Gd). Czechoslovak Journal of Physics, 1996. 46: p. 2671-2672.
98. N. Kharchenko, et al., Spontaneous incommensurate crystal phase in the Jahn–Teller KDy (MoO 4) 2 crystal? Low Temperature Physics, 1998. 24(9): p. 689-692.
99. M. Kharchenko, et al., Field anomaly of magnetic linear birefringence in magnetoelectric LiCoPO4. Ukrainian Journal of Physical Optics, 2000. 1(1): p. 16.
100. N. Kharchenko, et al., Weak ferromagnetism in the antiferromagnetic magnetoelectric crystal LiCoPO 4. Low Temperature Physics, 2001. 27(9): p. 895-898.
101. N. Kharchenko, et al., Weak ferromagnetism in the antiferromagnetic magnetoelectric LiCoPO 4 crystal. Fizika Nizkikh Temperatur, 2001. 27(9): p. 1208-1213.
102. N. Kharchenko, et al., Nonmonotonic temperature dependence of the spontaneous magnetization of the antiferromagnetic crystal LiCoPO 4. Low Temperature Physics, 2002. 28(8): p. 646-652.
103. O. Miloslavska, et al., Photoinduced magnetic linear dichroism in a YIG: Co film. Low Temperature Physics, 2002. 28(4): p. 267-269.
104. M. BARAN, et al., WEAK FERROMAGNETISM AND INTERMEDIATE INCOMMENSURATE ANTIFERROMAGNETIC PHASE IN LINIPO 4. ÔÈÇÈÊÀ ÍÈÇÊÈÕ ÒÅÌÏÅÐÀÒÓÐ, 2003. 29(7): p. 774-780.
105. N. Kharchenko, O. Miloslavskaya, and A. Milner, Magnetic Optical Linear Dichroism in Antiferromagnetic Crystal MnF2, in Magnetoelectric Interaction Phenomena in Crystals. 2004, Springer. p. 241-246.
106. Yu. Kharchenko, et al., Weak ferromagnetism in magnetoelectrics LiCoPO4 and LiNiPO4, in Magnetoelectric Interaction Phenomena in Crystals. 2004, Springer. p. 227-234.
107. V. Khrustalyov, N. Kharchenko, and V. Savitsky, Field-Induced Magnetic Phase Transitions in LiNiPO4, in Magnetoelectric Interaction Phenomena in Crystals. 2004, Springer. p. 235-240.
108. V. Khrustalyov, V. Savitsky, and N. Kharchenko, Multi-step-like Magnetization of LiNiPO 4 in a Pulse Magnetic Field. Czechoslovak Journal of Physics, 2004. 54: p. 27-30.
109. N. Kharchenko, On seven decades of antiferromagnetism. Low Temperature Physics, 2005. 31(8): p. 633-634.
110. N. Kharchenko, O. Miloslavskaya, and A. Milner, Odd magnetic dichroism of linearly polarized light in the antiferromagnet MnF 2. Low temperature physics, 2005. 31(8): p. 825-830.
111. N. Kharchenko, O. Miloslavskaya, and A. Milner, Magnetic linear dichroism of an antiferromagnetic MnF 2 crystal: Oddness in two different antiferromagnetic states. Bulletin of the Russian Academy of Sciences: Physics, 2007. 71(11): p. 1536-1538.
112. I. Lukienko, et al., Magnetic field induced increase of the longitudinal Kerr effect in multilayer Co∕ Cu (111) films. Low Temperature Physics, 2007. 33(11): p. 992-998.
113. N. Kharchenko, Y.N. Kharchenko, and O. Miloslavskaya, Schottky-type anomaly of linear optical birefringence of the antiferromagnetic LiCoPO 4 crystal. Fizika Nizkikh Temperatur, 2008. 34(12): p. 1289-1293.
114. N. Kharchenko, Y.N. Kharchenko, and O. Miloslavskaya, Schottky anomaly of linear birefringence of light in the antiferromagnetic crystal Li Co PO 4. Low Temperature Physics, 2008. 34(12): p. 1015-1018.
115. I. Lukienko, et al., Linear in magnetic field increase of the magneto optical Kerr effect in multilayered Cî/Cu films. Functional Materials, 2008. 15(1): p. 57.
116. I. Lukienko, et al., Magnetic film-induced enhancement of longitudinal Kerr effect in Co/Cu (111) multilayer films. Fizika Nizkikh Temperatur, 2008. 34(1): p. 1304-1312.
117. N. Kharchenko, V. Khrustalev, and V. Savitskiĭ, Magnetic field induced spin reorientation in the strongly anisotropic antiferromagnetic crystal Li Co PO 4. Low Temperature Physics, 2010. 36(6): p. 558-564.
118. N. Kharchenko, V. Khrustalev, and V. Savitskij, Induced by magnetic field spin reorientation in strongly anisotropic antiferromagnetic crystal LiCoPO 4. Fizika Nizkikh Temperatur, 2010. 36(6): p. 698-706.
119. A. Szewczyk, et al., Phase transitions in single-crystalline magnetoelectric LiCoPO 4. Physical Review B, 2011. 84(10): p. 104419.
120. V. Berzhansky, et al., Microcavity One-Dimensional Magnetophotonic Crystals with Double Layer Iron Garnet. Journal of the Magnetics Society of Japan, 2012. 36(1-2): p. 42-45.
121. V. Berzhansky, et al. The effect of FR enhancement in reactive ion beam sputtered Bi, Gd, Al-substituted iron-garnets: Bi 2 O 3 nanocomposite films. in Oxide Materials for Electronic Engineering (OMEE), 2012 IEEE International Conference on. 2012. IEEE.
122. V.V. Eremenko, et al., Magneto-optics and Spectroscopy of Antiferromagnets. 2012: Springer Science & Business Media.
123. I. Lukienko, et al., Reduction of superparamagnetic clusters in the [Co/Cu (111)] n nanofilms, induced by the quantum size effect. Low Temperature Physics, 2012. 38(9): p. 848-853.
124. I. Lukienko, et al., Decreasing of superparamagnetic clusters in [Co/Cu (111 n nanofilms, induced by quantum size effect. Fizika Nizkikh Temperatur, 2012. 38(9): p. 1069-1076.
125. V. Berzhansky, et al. Magneto-optical spectra of microcavity one-dimensional magnetophotonic crystals with double layer bismuth-substituted iron garnet. in Advanced Optoelectronics and Lasers (CAOL), 2013 International Conference on. 2013. IEEE.
126. V.N. Berzhansky, et al. The effect of Faraday rotation enhancement in nanolayered structures of Bi-substituted iron garnets. in Solid State Phenomena. 2013. Trans Tech Publ.
127. N. Kharchenko and O. Miloslavskaya, ANTIFERROMAGNETIC CRYSTAL MnF. Magnetoelectric Interaction Phenomena in Crystals, 2013. 164: p. 241.
128. V. Berzhansky, et al. Temperature dependence of Faraday rotation in microcavity 1D-MPC with compensation temperature. in Oxide Materials for Electronic Engineering (OMEE), 2014 IEEE International Conference on. 2014. IEEE.
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