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22. Carbucicchio, M., Ghidini, M., Rateo, M., & Solzi, M. Magnetization processes in exchange-coupled nano-crystalline Fe/Co planar systems //Journal of magnetism and magnetic materials. – 2005. – Т. 290. – С. 175-178.

23. Pizzini S. et al. Magnetic circular x-ray dichroism measurements of Fe-Co alloys and Fe/Co multilayers //Physical Review B. – 1994. – Т. 50. – №. 6. – С. 3779.

24. Mpourmpakis, G., Froudakis, G. E., Andriotis, A. N., & Menon, M. Role of Co in enhancing the magnetism of small Fe clusters //PHYSICAL REVIEW-SERIES B-. – 2005. – Т. 72. – №. 10. – С. 104417.

25. Yang G. H., Pan F. Structural and magnetic properties of Co/Mo multilayers //Journal of magnetism and magnetic materials. – 2002. – Т. 250. – С. 249-255.

26. Sato N. Co-Mo thin films with an artificially layered structure //Journal of applied physics. – 1988. – Т. 63. – №. 8. – С. 3476-3478.

27. O'brien W. L., Tonner B. P. Room-temperature magnetic phases of Fe on fcc Co (001) and Ni (001) //Physical Review B. – 1995. – Т. 52. – №. 21. – С. 15332.

28. Binns C., Maher M. J. Magnetic behaviour of thin films produced by depositing pre-formed Fe and Co nanoclusters //New Journal of Physics. – 2002. – Т. 4. – №. 1. – С. 85.

29. Bansmann J. et al. Magnetic and structural properties of isolated and assembled clusters //Surface Science Reports. – 2005. – Т. 56. – №. 6. – С. 189-275.

30. Binns C. et al. Synchrotron radiation studies of mass-selected Fe nanoclusters deposited in situ //The European Physical Journal D-Atomic, Molecular, Optical and Plasma Physics. – 2001. – Т. 16. – №. 1. – С. 189-192.

31. Soler, J. M., Beltrán, M. R., Michaelian, K., Garzón, I. L., Ordejón, P., Sánchez-Portal, D., & Artacho, E. Metallic bonding and cluster structure //Physical Review B. – 2000. – Т. 61. – №. 8. – С. 5771.

32. Nihei M. et al. Spin crossover iron (III) complexes //Coordination Chemistry Reviews. – 2007. – Т. 251. – №. 21. – С. 2606-2621.

33. Klokishner S. et al. Vibronic Model for Cooperative Spin-Crossover in Pentanuclear {[MIII (CN) 6] 2 [M′ II (tmphen) 2] 3}(M/M′= Co/Fe, Fe/Fe) Compounds //The Journal of Physical Chemistry C. – 2011. – Т. 115. – №. 44. – С. 21666-21677.

34. Gütlich P., Garcia Y., Goodwin H. A. Spin crossover phenomena in Fe (ii) complexesDedicated to Professor FA Cotton on occasion of his 70th birthday //Chemical Society Reviews. – 2000. – Т. 29. – №. 6. – С. 419-427.

35. Essig S. Silver Films on a Mica Crystal Face //Physical Review. – 1939. – Т. 55. – №. 2. – С. 229.

36. Glueckstein J. C., Evans M. M. R., Nogami J. Surface unwetting during growth of Ag on Si (001) //Physical Review B. – 1996. – Т. 54. – №. 16. – С. R11066.

37. Wadley H. N. G., Zhou X., Johnson R. A. Atomic assembly of giant magnetoresistive multilayers //MRS Proceedings. – Cambridge University Press, 2001. – Т. 672. – С. O4. 1.

38. Etienne P., Massies J. Basic considerations on the growth of metallic layers by molecular beam epitaxy: application to Cr/Fe, Ag/Fe and Cu/Co multilayers //Journal de Physique III. – 1993. – Т. 3. – №. 8. – С. 1581-1588.

39. Комник Ю. Ф. Физика металлических пленок, Атомиздат //Москва. – 1979.

40. Medel V. M. et al. Hund’s rule in superatoms with transition metal impurities //Proceedings of the National Academy of Sciences. – 2011. – Т. 108. – №. 25. – С. 10062-10066.

41. Ho J., Ervin K. M., Lineberger W. C. Photoelectron spectroscopy of metal cluster anions: Cu− n, Ag− n, and Au− n //The Journal of chemical physics. – 1990. – Т. 93. – №. 10. – С. 6987-7002.

42. Rühl E. Core level excitation, ionization, relaxation, and fragmentation of free clusters //International Journal of Mass Spectrometry. – 2003. – Т. 229. – №. 3. – С. 117-142.

43. Huttula M. et al. Size-varied photoelectron spectroscopy of metal clusters using the Exchange Metal Cluster Source //Journal of Electron Spectroscopy and Related Phenomena. – 2010. – Т. 181. – №. 2. – С. 145-149.

44. Popok V. N. et al. Cluster–surface interaction: From soft landing to implantation //Surface Science Reports. – 2011. – Т. 66. – №. 10. – С. 347-377.

45. Nouri Z. et al. A Penning sputter ion source with very low energy spread //Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. – 2010. – Т. 614. – №. 2. – С. 174-178.

46. Г.В.Смирницкая, Е.В.Яхшиев «Журнал технической физики», - 1988 - Т. 58, в.2, - С. 424.

47. Knickelbein M. B., Menezes W. J. C. Metal cluster—rare gas van der Waals complexes: NbnArm and FenKrm //Chemical physics letters. – 1991. – Т. 184. – №. 5. – С. 433-438.

48. Parajuli R. et al. Binding energies of neon and krypton cluster ions //Chemical physics letters. – 2002. – Т. 352. – №. 3. – С. 288-293.

49. Shyjumon I. et al. Deposition of titanium/titanium oxide clusters produced by magnetron sputtering //Thin Solid Films. – 2006. – Т. 500. – №. 1. – С. 41-51.

50. Peng D. L. et al. Preparation and magnetic characteristics of size-monodispersed Fe–Co alloy cluster assemblies //Journal of Alloys and Compounds. – 2009. – Т. 469. – №. 1. – С. 276-281.

51. Wucher A., Wahl M., Oechsner H. Sputtered neutral silver clusters up to Ag 18 //Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. – 1993. – Т. 82. – №. 2. – С. 337-346.

52. Смирнов Б. М. Плавление кластеров с парным взаимодействием атомов //Успехи физических наук. – 1994. – Т. 164. – №. 11. – С. 1165-1185.

53. Каминский М. Атомные и ионные столкновения на поверхности металла: Пер. с англ. – Мир, 1967.

54. Тренделенбург Э. Сверхвысокий вакуум //Иад-во «Мир. – 1966.

55. Израелашвили Д. Межмолекулярные и поверхностные силы //М.: Научный мир. – 2011. – Т. 465.

56. Morgan D. V. Thin-film analysis using Rutherford scattering //Journal of Physics D: Applied Physics. – 1974. – Т. 7. – №. 5. – С. 653.

57. Müller, G. A., Carpene, E., Gupta, R., Schaaf, P., Zhang, K., & Lieb, K. P. Ion-beam induced changes in magnetic and microstructural properties of thin iron films //The European Physical Journal B-Condensed Matter and Complex Systems. – 2005. – Т. 48. – №. 4. – С. 449-462.

58. SIMNRA user's guide// www2.if.usp.br/~lamfi/guia-simnra.pdf.

59. Velegrakis M., Lüder C. Formation and stability of singly and doubly charged MgAr N clusters //Chemical physics letters. – 1994. – Т. 223. – №. 1. – С. 139-142.

.

60. Fanourgakis G. S., Farantos S. C. Potential Functions and Static and Dynamic Properties of Mg m+ Ar n (m= 1, 2; n= 1-18) Clusters //The Journal of Physical Chemistry. – 1996. – Т. 100. – №. 10. – С. 3900-3909.

61. Grandinetti F. Gas-phase ion chemistry of the noble gases: recent advances and future perspectives //Rn. – 2012. – Т. 10. – №. 3.831. – С. 5.3.

62. Seidel S., Seppelt K. Xenon as a Complex Ligand: The Tetra Xenono Gold (II) Cation in AuXe42+ (Sb2F11−) 2 //Science. – 2000. – Т. 290. – №. 5489. – С. 117-118.

63. Pyykkoe P. Predicted chemical bonds between rare gases and Au+ //Journal of the American Chemical Society. – 1995. – Т. 117. – №. 7. – С. 2067-2070.

64. Hu W. P., Huang C. H. The intrinsic stability of the noble gas-coordinated transition-metal complex ions //Journal of the American Chemical Society. – 2001. – Т. 123. – №. 10. – С. 2340-2343.

65. Ostendorf, F., Schmitz, C., Hirth, S., Kühnle, A., Kolodziej, J. J., & Reichling, M. How flat is an air-cleaved mica surface? //Nanotechnology. – 2008. – Т. 19. – №. 30. – С. 305705.

66. Keller, A., Fritzsche, M., Ogaki, R., Bald, I., Facsko, S., Dong, M., ... & Besenbacher, F. Tuning the hydrophobicity of mica surfaces by hyperthermal Ar ion irradiation //The Journal of chemical physics. – 2011. – Т. 134. – №. 10. – С. 104705.

67. Ruffino, F., Torrisi, V., Marletta, G., & Grimaldi, M. G.. Atomic force microscopy investigation of the kinetic growth mechanisms of sputtered nanostructured Au film on mica: towards a nanoscale morphology control //Nanoscale Res. Lett. – 2011. – Т. 6. – С. 112.

68. Смирницкая Г. В., Ти Н. Х. О РАСПРЕДЕЛЕНИИ ИОННОГО ТОКА ПО ПОВЕРХНОСТИ КАТОДА В ПЕННИНГОВСКОМ РАЗРЯДЕ ПРИ НИЗКИХ ДАВЛЕНИЯХ //Журнал технической физики. – 1969. – Т. 39. – С. 1625.

69. Э.М. Рейхрудель, Г.В. Смирницкая, Электроника и ее применение. - 1976.- Т. 8. - С. 43.

70. Г.В.Смирницкая, С.В. Свешников и др. Поверхность. - 1992. – Т. 8. – С. 86.

71. А.В. Соболев and И.А. Пресняков. Магнетизм и основы мессбауэровской спектроскопии.Часть I. Природа эффекта Мессбауэра. Электрические сверхтонкие взаимодействия. Учебное пособие. Отдел печати Химического факультета МГУ Отдел печати Химического факультета МГУ, 2011.

72. Русаков В. С. Мессбауэровская спектроскопия локально неоднородных систем. – 2000.

73. Ковба Л. М. Рентгенография в неорганической химии. – Изд-во МГУ, 1991.

74. Tiago M. L. et al. Evolution of magnetism in iron from the atom to the bulk //Physical review letters. – 2006. – Т. 97. – №. 14. – С. 147201.

75. Степанов Н. Ф. Квантовая механика и квантовая химия. Изд-во Мир – 2013.

76. Niemeyer M. et al. Spin coupling and orbital angular momentum quenching in free iron clusters //Physical review letters. – 2012. – Т. 108. – №. 5. – С. 057201.

77. Peredkov S. et al. Spin and orbital magnetic moments of free nanoparticles //Physical review letters. – 2011. – Т. 107. – №. 23. – С. 233401.

78. Nyholm R. S. Magnetism and inorganic chemistry //Q. Rev. Chem. Soc. – 1953. – Т. 7. – №. 4. – С. 377-406.

79. С.В. Вонсовский. Магнетизм. Наука, М.; 1971.

80. Р. Карлин. Магнетохимия. Мир, М., 1989.

81. Tischer M. et al. K. multilayers were kindly supplied by G //Bayreuther (Univ. Baberschke, J. Trygg, JM Wills, B. Johansson, O. Eriksson, Phys. Regensburg). Helpful assistance of E. Goering, D. Ahlers, Rev. Lett. – 1995. – Т. 75. – С. 1602.

82. Billas I. M. L. et al. Magnetic moments of iron clusters with 25 to 700 atoms and their dependence on temperature //Physical review letters. – 1993. – Т. 71. – №. 24. – С. 4067.

83. Peredkov S. et al. Spin and orbital magnetic moments of free nanoparticles //Physical review letters. – 2011. – Т. 107. – №. 23. – С. 233401.

84. Tischer M. et al. Enhancement of orbital magnetism at surfaces: Co on Cu (100) //Physical review letters. – 1995. – Т. 75. – №. 8. – С. 1602.

85. Mpourmpakis G. et al. Role of Co in enhancing the magnetism of small Fe clusters //Physical Review B. – 2005. – Т. 72. – №. 10. – С. 104417.

86. Zhang W. et al. The nonmetallicity of molybdenum clusters //The Journal of chemical physics. – 2004. – Т. 121. – №. 16. – С. 7717-7724.

87. Nakagawa T., Watanabe H., Yokoyama T. Opposite spin reorientation transitions driven by a magnetic orbital moment: Ultrathin Ni films on Cu surfaces //Physical Review B. – 2005. – Т. 71. – №. 23. – С. 235403.

88. Bruno P. Tight-binding approach to the orbital magnetic moment and magnetocrystalline anisotropy of transition-metal monolayers //Physical Review B. – 1989. – Т. 39. – №. 1. – С. 865.

89. Peredkov S. et al. Spin and orbital magnetic moments of free nanoparticles //Physical review letters. – 2011. – Т. 107. – №. 23. – С. 233401.

90. Antipov, S. D., Gorjunov, G. E., Smirnitskaja, G. V., & Stetsenko, P. N. Oscillations of magnetic parameters in Fe/Mo superlattices //Journal of magnetism and magnetic materials. – 2003. – Т. 258. – С. 594-596.

91. Bruno P., Chappert C. Ruderman-Kittel theory of oscillatory interlayer exchange coupling //Physical Review B. – 1992. – Т. 46. – №. 1. – С. 261.

92. Shi Z. P., Levy P. M., Fry J. L. Interlayer magnetic coupling in metallic multilayer structures //Physical Review B. – 1994. – Т. 49. – №. 21. – С. 15159.

93. Ruderman M. A., Kittel C. Indirect exchange coupling of nuclear magnetic moments by conduction electrons //Physical Review. – 1954. – Т. 96. – №. 1. – С. 99.

94. Jorritsma J., Mydosh J.A. // Temperature-dependent magnetic anisotropy in Ni nanowires. J.Appl.Phys. 1998. №84. 2. 901

95. Barnaś J. Coupling between two ferromagnetic films through a non-magnetic metallic layer //Journal of magnetism and magnetic materials. – 1992. – Т. 111. – №. 3. – С. L215-L219.

96. Bruno P. Oscillations of interlayer exchange coupling vs. ferromagnetic-layers thickness //EPL (Europhysics Letters). – 1993. – Т. 23. – №. 8. – С. 615.

97. Bruno P. Interlayer exchange coupling: a unified physical picture //Journal of magnetism and magnetic materials. – 1993. – Т. 121. – №. 1. – С. 248-252.

98. Ortega J. E. et al. Quantum-well states and magnetic coupling between ferromagnets through a noble-metal layer //Physical Review B. – 1993. – Т. 47. – №. 3. – С. 1540.

99. Moulas G. et al. High magnetic moments and anisotropies for Fe x Co 1− x monolayers on Pt (111) //Physical Review B. – 2008. – Т. 78. – №. 21. – С. 214424.

100. Gambardella P. et al. Giant magnetic anisotropy of single cobalt atoms and nanoparticles //Science. – 2003. – Т. 300. – №. 5622. – С. 1130-1133.

101. Popescu V. et al. Spin and orbital magnetic moments of 3 d and 4 d impurities in and on the (001) surface of bcc Fe //Physical Review B. – 2001. – Т. 64. – №. 18. – С. 184407.

102. Aguilera-Granja F., Vega A. and Gallego L.J. // A density-functional study of the structures, binding energies and magnetic moments of the clusters Mo_N (N = 2–13), Mo₁₂Fe, Mo₁₂Co and Mo₁₂Ni. Nanotechnology. 2008. №19. 145704.

103. Murphy, S., Mac Mathúna, D., Mariotto, G., & Shvets, I. V. Morphology and strain-induced defect structure of ultrathin epitaxial Fe films on Mo (110) //Physical Review B. – 2002. – Т. 66. – №. 19. – С. 195417.

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