Issues »  Volume 37, Issue 10

Structural—Phase State, Magnetoresistive and Magnetic Properties of Permalloy Films

Ia. M. Lytvynenko$^{1}$, I. M. Pazukha$^{2}$, O. V. Pylypenko$^{2}$, V. V. Bibyk$^{1}$

$^{1}$Konotop Institute of Sumy State University, 24 Myru Ave., 41615 Konotop, Ukraine
$^{2}$Sumy State University, 2 Rymsky-Korsakov Str., UA-40007 Sumy, Ukraine

Received: 23.06.2015; final version - 07.07.2015. Download: PDF

The experimental results and literature data on structure and phase state, magnetoresistive and magnetic properties of thin permalloy films prepared by different methods are presented. The analysis of fabrication-conditions’ influence on the structure and phase state of thin-film samples is performed. The anisotropic magnetoresistance with values of 3—4% at room temperature appears in thin permalloy films. The size, concentration and temperature dependences of anisotropic magnetoresistance and coercivity are obtained.

Key words: film alloy, magnetoresistance, magnetic anisotropy, coercivity, saturation field.

URL: http://mfint.imp.kiev.ua/en/abstract/v37/i10/1377.html

DOI: https://doi.org/10.15407/mfint.37.10.1377

PACS: 68.55.Nq, 75.30.Gw, 75.47.Np, 75.60.Ej, 75.70.Ak, 81.15.-z, 81.40.Rs

Citation: Ia. M. Lytvynenko, I. M. Pazukha, O. V. Pylypenko, and V. V. Bibyk, Structural—Phase State, Magnetoresistive and Magnetic Properties of Permalloy Films, Metallofiz. Noveishie Tekhnol., 37, No. 10: 1377—1393 (2015) (in Ukrainian)

REFERENCES
  1. J. A. Bas, J. A. Calero, and M. J. Dougan, J. Magn. Magn. Mater., 254–255: 391 (2003). Crossref
  2. P. Ripka, J. Magn. Magn. Mater., 320: 2466 (2008). Crossref
  3. A. Hamler, V. Gorican, B. Sustarsic, and A. Sirc, J. Magn. Magn. Mater., 304: e816 (2006). Crossref
  4. R. C. O'Handley, Modern Magnetic Materials (New York: Wiley-Interscience: 2002).
  5. B. D. Cullity and C. D. Graham, Introduction to Magnetic Materials (Hoboken: John Wiley and Sons, Inc.: 2009).
  6. G. Nahrwold, J. M. Scholtyssek, S. Motl-Ziegler, O. Albrecht, U. Merkt, and G. Meier, J. Appl. Phys., 108: 013907 (2010). Crossref
  7. S. S. P. Parkin, M. Hayashi, and L. Thomas, Science, 320: 190 (2008). Crossref
  8. L. Kong, Q. Pan, B. Cui, M. Li, and Y. Chou, J. Appl. Phys., 85, No. 8: 5492 (1999). Crossref
  9. Y. Jiang, S. Yao, and W. Zhang, Thin Solid Films, 516: 3210 (2008). Crossref
  10. D. G. Rancourt, Phys. Canada, 45: 3 (1995).
  11. A. V. Svalov, I. R. Aseguinolaza, A. Garcia-Arribas, I. Orue, J. M. Barandiaran, J. Alonso, M. L. Fernández-Gubieda, and G. V. Kurlyandskaya, IEEE Trans. Magn., 46, No. 2: 333 (2010). Crossref
  12. S. U. Jen, T. C. Wu, C. M. Wong, Y. T. Chen, and H. P. Chiang, Thin Solid Films, 515: 7382 (2007). Crossref
  13. E. B. Park, S.-U. Jang, J.-H. Kim, and S.-J. Kwon, Thin Solid Films, 520: 5981 (2012). Crossref
  14. S. Ostanina, J. B. Stauntona, S. S. A. Razee, B. Ginatempoc, and E. Bruno, J. Magn. Magn. Mater., 295: 110 (2005). Crossref
  15. T. Waeckerle and H. Fraisse, J. Magn. Magn. Mater., 215–216: 184 (2000). Crossref
  16. M. Volmer and J. Neamtu, J. Optoelectr. Advanc. Mater., 9, No. 4: 1147 (2007).
  17. Y. Sato, T. F. Johnson, S. Chiang, J. A. Giacomo, X. D. Zhu, D. P. Land, F. Nolting, and A. Scholl, J. Vac. Sci. Technol. A, 22, Iss. 1: 135 (2004). Crossref
  18. K. V. Tyschenko and I. Yu. Protsenko, Metallofiz. Noveishie Tekhnol., 34, No. 7: 907 (2012) (in Ukrainian).
  19. T. Lorenz, A. Käufler, Y. Luo, M. Moske, and K. Samwer, arXiv:cond-mat/9902222 [cond-mat.mtrl-sci] (1999).
  20. Y. Marita and I. I. Yaacob, Materials Science Forum, 654–656: 2430 (2010). Crossref
  21. M. H. Demydenko, S. I. Protsenko, D. M. Kostyuk, and I. V. Cheshko, J. Nano- Electron. Phys., 3, No. 4: 106 (2011).
  22. Diagrammy Sostoyaniya Dvoynykh Metallicheskikh Sistem: Spravochnik (Ed. N. P. Lyakishev) (Moscow: Mashinostroenie: 1997), vol. 2 (in Russian).
  23. O. A. Bannykh, P. B. Budberg, and S. P. Alisova, Diagrammy Sostoyaniya Dvoinykh i Mnogokomponentnykh Sistem na Osnove Zheleza (Moscow: Metallurgiya: 1986) (in Russian).
  24. V. B. Loboda, V. O. Kravchenko, Yu. O. Shkurdoda, and S. M. Pirogova, Visnyk SumDU. Seriya Fizyka, Matematyka, Mekhanika, 8: 115 (2004) (in Ukrainian).
  25. J. H. Seo, J. K. Kim, T. H. Yim, and Y. B. Park, Materials Science Forum, 475–479: 3483 (2005). Crossref
  26. A. H. Bahrami, S. Sharafi, and H. Ahmadian Baghbaderani, Advanced Powder Technology, 24: 235 (2013). Crossref
  27. A. Guittoum, A. Layadi, A. Bourzami, H. Tafat, N. Souami, S. Boutarfaia, and D. Lacour, J. Magn. Magn. Mater., 320: 1385 (2008). Crossref
  28. Y. Nukaga, M. Ohtake, and O. Yabuhara, J. Magn. Soc. Jpn., 34: 508 (2010). Crossref
  29. M. Ohtake, T. Tanaka, K. Matsubara, F. Kirino, and M. Futamoto, J. Physics: Conference Series, 303: 012015 (2011). Crossref
  30. V. V. Bibyk, T. M. Hrychanovs'ka, and I. Yu. Protsenko, Metallofiz. Noveishie Tekhnol., 27: No. 6: 775 (2005) (in Ukrainian).
  31. Z. M. Makukha, O. V. Synashenko, Ya. N. Litvinenko, Yu. M. Shabel'nik, and I. E. Protsenko, Materialy Mezhdunarodnoy Nauchno-Prakticheskoy Konferentsii 'Perspektivnye Innovatsii v Nauke, Obrazovanii, Proizvodstve i Transporte 2012' (June 19–30, 2012, Moscow, Russia), vol. 3, p. 64 (in Russian).
  32. K. G. Patrin, V. Yu. Yakovchuk, G. S. Patrin, and S. A. Yarikov, Solid State Phenomena, 190: 439 (2012). Crossref
  33. T. R. McGuire and R. I. Potter, IEEE Transact. Magn. Mag-11, No. 4: 1018 (1975). Crossref
  34. R. O'Handley, Modern Magnetic Materials (New York: Wiley and Sons: 2000).
  35. D. H. Kim, T.-J. Hwang, K.-S. Ryu, and S.-Ch. Shin, phys. status solidi (c), 5, No. 1: 405 (2008). Crossref
  36. H. Nagura, K. Saito, K. Takanashi, and H. Fujimori, J. Magn. Magn. Mater., 212: 53 (2000). Crossref
  37. T. Miyazaki, T. Ajima, and F. Sato, J. Magn. Magn. Mater., 81: 86 (1989). Crossref
  38. I. Tabakovic, S. Riemer, V. Vas'ko, V. Sapozhnikov, and M. Kief, J. Electrochem. Soc., 150, Iss. 9: C635 (2003). Crossref
  39. J.-G. Choi, D.-G. Hwang, J.-R. Rhee, and S.-S. Lee, J. Magn. Magn. Mater., 322: 2191 (2010). Crossref
  40. S. T. Roshchenko, A. G. Ravlik, I. G. Shipkova, and A. Yu. Zolotarev, Fiz. Met. Metalloved., 90, No. 3: 58 (2000) (in Russian).
  41. D. Oleksakova, S. Roth, P. Kollar, and J. Fuzer, J. Magn. Magn. Mater., 304: e730 (2006). Crossref
  42. S. A. Nepijko, O. V. Pylypenko, L. V. Odnodvorets, E. Kisker, H. J. Elmers, and G. Schönhense, Appl. Phys. A, 111: 557 (2013). Crossref
  43. L. V. Kirenskiy, Magnetizm [Magnetism] (Moscow: Izd. AN SSSR: 1967) (in Russian).
  44. S. V. Vonsovsky, Magnetizm [Magnetism] (Moscow: Nauka: 1971) (in Russian).
  45. C. Luo, L. Sun, Y. Zhang, H. B. Huang, M. Yang, Y. Zhai, J. Du, and H. R. Zhai, phys. status solidi (c), 9, Iss. 1: 81 (2012). Crossref
  46. O. Schneeweissa, B. Davida, and T. Zaka, J. Magn. Magn. Mater., 310: e858 (2007). Crossref
  47. Electrical Engineering Handbook (Ed. R. C. Dorf) (Boca Raton, FL: CRC Press: 1993).
  48. C. W. Chen, Magnetism and Metallurgy of Soft Magnetic Materials (Amsterdam: North-Holland Publishing Company: 1977).

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