Citing Articles

2012 {2}

· Dorj Odkhuu, Won Seok Yun, and Soon Cheol Hong, "Electronic origin of the negligible magnetostriction of an electric steel Fe1-xSix 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).

2015 {3}

· Soyoung Jekal, Oryong Kwon, Soon Cheol Hong, and Jae Il Lee, "Magnetocrystalline anisotropy of d0-Magnetic Material NaN(001) Thin Films: A Density Functional Study", J. Nanosci. Nanotechnol. 15, 2356-2359 (2015).

· Dorj Odkhuu, S. H. Rhim, Noejung Park, Kohji Nakamura, and Soon Cheol Hong, "Jahn-Teller driven perpendicular magnetocrystalline anisotropy in metastable Ruthenium", Phys. Rev. B 91, 014437 (2015). See also: arXiv:1405.0499v3.

· P. Taivansaikhan, D. Odkhuu, S. H. Rhim, and S. C. Hong, "Magnetocrystalline anisotropy of 4d/5d transition metals on a Co(0001) surface: A first-principles study", J. Appl. Phys. 117, 17A327 (2015).

2016 {5}

· Dorj Odkhuu, "Magnetization reversal of giant perpendicular magnetic anisotropy at the magnetic-phase transition in FeRh films on MgO", Phys. Rev. B 93, 064412 (2016).

· Dorj Odkhuu, Won Seok Yun, S. H. Rhim, and Soon Cheol Hong, "Theory of perpendicular magnetocrystalline anisotropy in Fe/MgO (001)", J. Magn. Magn. Mater. 414, 126-131 (2016). See also: arXiv:1507.06799v1.

· Dorj Odkhuu, "Giant perpendicular magnetic anisotropy of an individual atom on two-dimensional transition metal dichalcogenides", Phys. Rev. B 94, 060403(R) (2016).

· Dorj Odkhuu, N. Tsogbadrakh, A. Dulmaa, N. Otgonzul, and D. Naranchimeg, "Substitution- and strain-induced magnetic phase transition in iron carbide", J. Korean Phys. Soc. 69, 1335-1340 (2016).

· Dorj Odkhuu, "Giant strain control of magnetoelectric effect in Ta|Fe|MgO", Sci. Rep. 6, 32742 (2016).

2017 {2}

· P. Taivansaikhan, D. Odkhuu, S.H Rhim, and S.C Hong, "Gigantic perpendicular magnetic anisotropy of heavy transition metal cappings on Fe/MgO(001)", J. Magn. Magn. Mater. 442, 183-188 (2017).

· Jianmin Zhang, Baishun Yang, Huiling Zheng, Xiufeng Han, and Yu Yan, "Large magnetic anisotropy and strain induced enhancement of magnetic anisotropy in monolayer TaTe2", Phys. Chem. Chem. Phys. 19, 24341-24347 (2017).

2020 {1}

· Qurat-ul-ain, D. Odkhuu, S. H. Rhim, and S. C. Hong, "Enhanced voltage-controlled magnetic anisotropy via magnetoelasticity in FePt/MgO(001)", Phys. Rev. B 101, 214436 (2020). See also: arXiv:2001.01464v1.

2021 {2}

· D. Tuvshin, T. Ochirkhuyag, S. C. Hong, and D. Odkhuu, "First-principles prediction of rare-earth free permanent magnet: FeNi with enhanced magnetic anisotropy and stability through interstitial boron", AIP Adv. 11, 015138 (2021).

· T. Ochirkhuyag, S. C. Hong, and D. Odkhuu, "Enhancing magnetic anisotropy and stability of α"-Fe16N2 phase by Co and V co-substitution", AIP Adv. 11, 015227 (2021).

2025 {2}

· Takahiro Yamazaki, Takahiro Kawasaki, Alexandre Lira Foggiatto, Ryo Toyama, Kentaro Fuku, Varun Kumar Kushwaha, Yoshinori Kotani, Takuo Ohkochi, Kotaro Higashi, Naomi Kawamura, Yuya Sakuraba, Yuma Iwasaki, and Masato Kotsugi, "Uncovering the origin of magnetic moment enhancement in Fe–Co–Ir alloys via high-throughput XMCD", Phys. Rev. Mater. 9, 034408 (2025).

· Jijun Xue, Shixin Hu, Xiaoying Wang, and Hua Pang, "Interface-modulated large MAE in hcp-M2/Sinsuperlattice", Phys. B: Condens. Matter 714, 417477 (2025).