Citing Articles

2009 {1}

· J. X. Cao, Y. N. Zhang, W. J. Ouyang, and R. Q. Wu, "Large magnetostriction of Fe_1-xGe_x and its electronic origin: Density functional study", Phys. Rev. B 80, 104414 (2009).

2010 {4}

· Y. N. Zhang, J. X. Cao, and R. Q. Wu, "Rigid band model for prediction of magnetostriction of iron-gallium alloys", Appl. Phys. Lett. 96, 062508 (2010).

· E. Arenholz, G. van der Laan, A. McClure, and Y. Idzerda, "Electronic and magnetic structure of Ga_xFe_1-x thin films", Phys. Rev. B 82, 180405 (2010).

· Dorj Odkhuu and Soon Cheol Hong, "First-principles investigation of huge magnetostriction in cubic L1₂ Fe₃Pt", J. Appl. Phys. 107, 09A945 (2010).

· Y. N. Zhang, J. X. Cao, I. Barsukov, J. Lindner, B. Krumme, H. Wende, and R. Q. Wu, "Magnetocrystalline anisotropy of Fe-Si alloys on MgO(001)", Phys. Rev. B 81, 144418 (2010).

2011 {5}

· Dorj Odkhuu, Won Seok Yun, S. H. Rhim, and Soon Cheol Hong, "Engineering of magnetostriction in Fe₃Pt_1-xIr_x by controlling Ir concentration", Appl. Phys. Lett. 98, 152502 (2011).

· Dorj Odkhuu, Won Seok Yun, and Soon Cheol Hong, "First-principles study on magnetocrystalline anisotropy of Fe₃Si in bulk and on Si(001) and Si(111) substrates", Thin Solid Films 519, 8218-8222 (2011).

· Won Seok Yun, Dorj Odkhuu, Soon Cheol Hong, and Jae Il Lee, "Magnetocrystalline Anisotropy of Zinc-Blende CrTe (001) Surface: A First-Principles Study", Thin Solid Films 519, 8355-8358 (2011).

· Dorj Odkhuu and Soon Cheol Hong, "Magnetocrystalline Anisotropy of D0₃-Fe₃Si From First-Principles Study", IEEE Trans. on Mag. 47, 2920-2923, (2011).

· Y. N. Zhang and R. Q. Wu, "Mechanism of Large Magnetostriction of Galfenol", IEEE Trans. on Mag. 47, 4044-4049, (2011).

2012 {3}

· Gabriela Petculescu, Ruqian Wu, and Robert McQueeney, "Magnetoelasticity of large magnetostriction of galfenol", Handbook of Magnetic Materials Edited by K.H.J. Buschow 20, pp123-226 (2012).

· Dorj Odkhuu, Won Seok Yun, and Soon Cheol Hong, "Electronic origin of the negligible magnetostriction of an electric steel Fe_1-xSi_x alloy: A density-functional study", J. Appl. Phys. 111, 063911 (2012).

· Won Seok Yun, Gi-Beom Cha, In Gee Kim, S. H. Rhim, and Soon Cheol Hong, "Strong perpendicular magnetocrystalline anisotropy of bulk and the (001) surface of DO₂₂ Mn₃Ga: A density functional study", J. Phys.: Condens. Matter 24, 416003 (2012).

2013 {1}

· Sunchul Lee, Dorj Odkhuu, Oryong Kwon, and Soon Cheol Hong, "Magnetostriction of B2-structured FeX (X = Al, Si, Ni, Ga, Ge, and Sn) Alloys: A First-principles Study", J. Korean Magn. Soc. 23, 117-121 (2013).

2014 {4}

· Eun Gu Kim, So Young Jekal, Oryong Kwon, and Soon Cheol Hong, "Magnetism and Magnetocrystalline Anisotropy of CoFe Thin Films: A First-principles Study", J. Korean Magn. Soc. 24, 35-40 (2014).

· Yun Zhang, Zhe Wang, Juexian Cao, "Stability, elastic and magnetostrictive properties of g-Fe₄C and its derivatives from first principles theoroy", J. Magn. Magn. Mater. 368, 25-28 (2014).

· Yun Zhang, Zhe Wang, Juexian Cao, "Predicting magnetostriction of MFe₃N (M = Fe, Mn, Ir, Os, Pd, Rh) from ab initio calculations", Comput. Mater. Sci. 92, 464-467 (2014).

· Dongyoo Kim, Jisang Hong, and Levente Vitos, "Epitaxial strain and composition-dependent magnetic properties of Mn_xGa_1-x alloys", Phys. Rev. B 90, 144413 (2014).

2015 {2}

· Imran Khan and Jisang Hong, "Magnetic anisotropy of C and N doped bulk FeCo alloy: A first principles study", J. Magn. Magn. Mater. 388, 101-105 (2015).

· Soyoung Jekal, S. H. Rhim, S. C. Hong, Won-joon Son, and A. B. Shick, "Surface-termination dependent magnetism and strong perpendicular magnetocrystalline anisotropy of a FeRh (001) thin film: A density-functional study", Phys. Rev. B 92, 064410 (2015). See also: arXiv:1504.07349v1.

2016 {1}

· Imran Khan, Jicheol Son, and Jisang Hong, "Magnetic Anisotropy of α''-Fe₁₆N₂", J. Korean Magn. Soc. 26, 115-118 (2016).

2019 {3}

· Mariya V. Matyunina, Mikhail A. Zagrebin, Vladimir V. Sokolovskiy, and Vasiliy D. Buchelnikov, "Magnetic properties of Fe_100-xGa_x: Ab initio and Monte Carlo study", J. Magn. Magn. Mater. 470, 118-122 (2019).

· M. Barturen, D. Sander, J. Milano, J. Premper, C. Helman, M. Eddrief, J. Kirschner, and M. Marangolo, "Bulklike behavior of magnetoelasticity in epitaxial Fe_1-xGa_x thin films", Phys. Rev. B 99, 134432 (2019).

· Jie Wang, "Mechanical Control of Magnetic Order: From Phase Transition to Skyrmions", Annu. Rev. Mater. Res. 49, 361-388 (2019).

2021 {2}

· M. O. Adelani, Sion F. Olive-Méndez, Francisco Espinosa-Magaña, José A.Matutes-Aquino, and M. C. Grijalva-Castillo, "Structural, magnetic and electronic properties of Fe-Ga-Tb_x (0 ≤ x ≤ 1.85) alloys: Density-functional theory study", J. Alloys Compd. 857, 157540 (2021).

· P. Nieves, S. Arapan, S. H. Zhang, A. P. Kadzielawa, R. F. Zhang, and D. Legut, "MAELAS: MAgneto-ELAStic properties calculation via computational high-throughput approach", Comput. Phys. Commun. 264, 107964 (2021). See also: arXiv:2009.01638v3.

2022 {1}

· Zhencheng Yang, Mengli Yao, Jing Pan, Longkun Huang, Min Li, and Hui Wang, "Large magnetostriction of heavy-metal-element doped Fe-based alloys", J. Appl. Phys. 132, 215105 (2022).

2023 {1}

· Yiqun Zhang, Junming Gou, Tianzi Yang, Yubin Ke, and Tianyu Ma, "Non-equilibrium time-temperature-transformation diagram for enhancing magnetostriction of Fe-Ga alloys", Acta Materialia 244, 118548 (2023).