Geodesic
Epitaxy, structure, phase and magnetic state of the films, synthesized in Ni laser plasma
Journal of Samara State Technical University, Ser. Physical and Mathematical Sciences, no. 2 (2009), pp. 200-208.

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The structure, phase state and changing of density and magnetic properties where studied at recrystallization of thin films of laser condensates of nickel. For two cases of epitaxial growth with HCP crystal lattice (phase $\alpha$-Ni) and with BCC crystal lattice (phase $\beta$-Ni) orientation relations “film–substrate” (001) KCl where established. An orientation relation between phases of $\alpha$-Ni and of $\beta$-Ni, that takes place during polymorphous transformation at the film annealing, was determined. It was demonstrated, that as the result of a polymorphous transformation there is a change of magnetic characteristics. Density increases, (at 18.5 %); films get magnetic properties and hysteresis takes place at magnetization reversal.
Keywords: laser evaporation, epitaxy, magnetic properties.
Mots-clés : phase transition 
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A. G. Bagmut; I. G. Shipkova; V. A. Zhuchkov. Epitaxy, structure, phase and magnetic state of the films, synthesized in Ni laser plasma. Journal of Samara State Technical University, Ser. Physical and Mathematical Sciences, no. 2 (2009), pp. 200-208. http://geodesic.mathdoc.fr/item/VSGTU_2009_2_a22/

[1] Altudov Yu. K., Garitsyn A. G., Lazernye mikrotekhnologii i ikh primenenie v elektronike, Radio i svyaz, M., 2001, 631 pp.

[2] Bagmut A. G., “Formirovanie, estestvennoe starenie i otzhig amorfnykh i kristallicheskikh lazernykh kondensatov zolota”, Poverkhnost. Rentgen., sinkhrotr. i neitron. issled., 2008, no. 6, 65–79 | DOI

[3] Tian W., Sun H. P., Pan X. Q., Yu J. H., Yeadon M., Boothroyd C. B., Feng Y. P., Lukaszew R. A., Clarke R., “Hexagonal close-packed Ni nanostructures grown on the (001) surface of MgO”, Applied Physics Letters, 86:13 (2005), 131915-1–131915-3 | DOI

[4] Yoon Tae Jeon, Je Yong Moon, Gang Ho Lee, Jeunghee Park, Yongmin Chang, “Comparison of the magnetic properties of metastable hexagonal close-packed Ni nanoparticles with those of stable face-centred cubic Ni nanoparticles”, J. Phys. Chem. B, 110:3 (2006), 1187–1191 | DOI

[5] Yuanzhi Chen, Dong-Liang Peng, Dongxing Lin, Xiaohua Luo, “Preparation and magnetic properties of nickel nanoparticles via the thermal decomposition of nickel organometallic precursor in alkylamines”, Nanotechnolology, 18:50 (2007), 505703, 6 pp. | DOI

[6] Bagmut A. G., Zhuchkov V. A., “Elektronnaya mikroskopiya fazovykh prevraschenii pri otzhige tonkoplenochnykh lazernykh kondensatov Ni”, Aktualnye problemy prochnosti, Materialy XLVII mezhdunarodn. konf., 2, NNGU, Nizhnii Novgorod, 2008, 338–340

[7] Bagmut A. G., Shipkova I. G., Zhuchkov V. A., “Strukturnye prevrascheniya i izmenenie magnitnykh svoistv pri otzhige tonkoplenochnykh lazernykh kondensatov Ni”, Magnitnye materialy. Novye tekhnologii, Materialy III Baikalsk. mezhdunarodn. konf., IGPU, Irkutsk, 2008, 32–33

[8] International Center for Diffraction Data–JCPDC, card No 45–1027, 1996

[9] International Center for Diffraction Data–JCPDC, card No 04–0850, 1996

[10] Bagmut A. G., Nikolaichuk G. P., A. s. 1689794 SSSR. Sposob opredeleniya otnositelnogo izmeneniya plotnosti, Byul. 1991. No 41, Kharkov. politekhnich. in-t im. V. I. Lenina, 3 pp.

[11] Bublik A. I., Pines B. Ya., “Fazovyi perekhod pri izmenenii tolschiny v tonkikh metallicheskikh plenkakh”, DAN SSSR, 87:2 (1952), 215–218

[12] Gudinaf Dzh., Zonnaya struktura perekhodnykh $d$-metallov i ikh splavov, Izd-vo inostr. lit-ry, M., 1963, 160 pp.

[13] He X., Kong L. T., Liu B. X., “Calculation of ferromagnetic states in metastable bcc and hcp Ni by projector-augmented wave method”, J. Appl. Phys., 97:10 (2005), 106–107 | DOI