Abstract
The magnetic properties of antiferromagnetic HoRh nanomaterials have been studied using Monte Carlo simulations within the Ising model framework. The considered Hamiltonian includes the first nearest neighbor, second and third exchange interactions, and an external magnetic field. The thermal magnetizations and magnetic susceptibilities are computed for a fixed size of the nanomaterial. In addition, the Néel temperature is deduced. The magnetization and magnetic susceptibility versus the exchange interactions are studied for a fixed size of the nanomaterial. The magnetic hysteresis cycle versus temperature is also established.
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Chamard-Bois, R., Rossat-Mignod, J., Knorr, K., Drexel, W.: Solid State Commun. 13, 1549 (1973)
Chamard-Bois, R., van Nhung, N., Yakinthos, J., Mme Wintenberger, M.: Solid State Commun. 10, 685 (1972)
Baran, S., Leciejewicz, J., Stiisser, N., Ding, Y., Szytuta, A.: J. Alloys. Compds. 262, 225 (1997)
Talik, E., Mydlarz, T., Kusz, J., Bohm, H.: J. Alloys. Compds. 336, 29 (2002)
Shishido, T., Yubuta, K., Mori, T., Kudou, K., Yoshikawa, A., Okada, S.: Pac. Sci. Rev. 13, 71 (2011)
Shishido, T., Higashi, I., Kitazawa, H., Bernhard, J., Takei, H., Fukuda, T.J.: J. Appl. Phys. Series 10, Boron, Borides and Related Compounds, 142 (1994)
Shishido, T., Ye, J., Oku, M., Kudou, K., Sasaki, T., Matsumoto, T., Fukuda, T.: J. Alloys Compds. 248, 18 (1997)
Shishido, T., Ye, J., Sasaki, T., Note, R., Obara, K., Takahashi, T., Matsumoto, T., Fukuda, T.: J. Solid State Chem. 133, 982 (1997)
Tsutaok, T., Tokunaga, T., Kosaka, M., Uwatoko, Y., Suzuki, H., Kitazawa, H., Kido, G.: Physica B 294, 199 (2001)
Tsutaoka, T., Nakamori, Y., Tokunaga, T., Itoh, Y.: J. Phys. Soc. Japan 70, 199 (2001)
Ivanov, V., Jaworska, T., Vinokurova, L., Mydlarz, T., Szytuła, A.: J. Alloys. Compds. 234, 235 (1996)
Ivanov, V., Vinokurova, L., Szytula, A.: J. Alloys Comp. 201, 109 (1993)
Ivanov, V., Vinokurova, L., Szytuta, A., Zygmunt, A.: J. Alloys Comp. 191, 159 (1993)
Ivanov, V., Vinokurova, L., Szytuta, A.: J. Alloys. Comp. 218, L19 (1995)
Ohtani, T., Chevalier, B., Lejay, P., Etourneau, J.Z., Vlasse, M., Hagenmuller, P.: J. Appl. Phys. 54, 5928 (1983)
Masrour, R., Bahmad, L., Benyoussef, A.: J. Magn. Magn. Mater. 324, 3991 (2012)
Masrour, R., Bahmad, L., Benyoussef, A., Hamedoun, M., Hlil, E.K.: J. Supercond. Nov. Magn. 26, 679 (2012)
Masrour, R., Hamedoun, M., Benyoussef, A.: Int. J. Phys. Sci. 6, 4020 (2011)
Masrour, R., Hamedoun, M., Benyoussef, A.: J. Supercond. Nov. Magn. 24, 1617 (2011)
Masrour, R., Hlil, E.K., Hamedoun, M., Benyoussef, A., Mounkachi, O., Bahmad, L., El Moussaouid, H.: J. Magn. Magn. Mater. 344, 220 (2013)
Rus, J., Turek, I., Divis, M.: Physica B 381, 265 (2006)
Dwight, A.E., Conner, R.A., Downey, J.W. Jr: Acta. Crystallogr 8, 837 (1965)
Yang, W.S.: Mathematical methods in statistical mechanics. In: Lecture Notes, National Center for Theoretical Sciences, Hsinchu, Taiwan (2003)
Allan, G.A.T.: Phys. Rev. B 1, 352 (1970)
Oitmaa, J., Enting, G.: J. Phys. A 8, 1097 (1975)
Suzuki, M.: Progr. Theoret. Phys. 46, 1054 (1971)
Lipowski, A.: Phys. A 250, 373–383 (1998)
Wosiek, J.: Phys. Rev. B 49, 15023 (1994)
Huang, K.: Statistical Mechanics. 2nd edn. Wiley (1987)
Onsager, L.: Phys. Rev. 65, 117 (1944)
Mardani, T., Mirza, B., Ghaemi, M.: Phys. Rev. E 026127, 72 (2005)
Ghaemi, M., Mirza, B., Parsafar, G.A.: J. Theory Comp. Chem. 3, 217–224 (2004)
Wu, F.Y.: Rev. Modern Phys. 54, 235–268 (1982)
Masrour, R., Hlil, E.K., Hamedoun, M., Benyoussef, A., Mounkachi, O., Bahmad, L.: J. Magn. Magn. Mater. 326, 166 (2013)
Chamard-Bois, R., Nhung, N. V.: J. Pierre, Phys. Stat. Sol.(b) 49, 161 (1971)
Holland, W.E., Brown, H. A.: Phys-Stat. Sol (a) 10, 249 (1972)
Van Vleck, J.H.: J. Chem. Phys. 9, 85 (1941)
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Masrour, R., Bahmad, L., Hlil, E.K. et al. The Size Effect on Magnetic Properties of HoRh Compounds: Monte Carlo Study. J Supercond Nov Magn 27, 2299–2303 (2014). https://doi.org/10.1007/s10948-014-2574-4
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DOI: https://doi.org/10.1007/s10948-014-2574-4
Keywords
- HoRh nanomaterial
- Monte Carlo simulations
- Néel temperature
- Magnetic hysteresis
- Exchange interactions
- Coercive field