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Showing results 184161 to 184180 of 279471
| Spin-orbit coupling and electron correlation in relativistic configuration interaction and coupled-cluster methods Kim, In-Koo; Park, Young-Choon; Kim, Hyung-Jun; Lee, Yoon-Sup, CHEMICAL PHYSICS, v.395, no.1, pp.115 - 121, 2012-02 |
| Spin-orbit coupling effects of Co2+ ion in CuAlSe2 single crystals H. L. Park; J. S. Kim; D. S. Ma; Kim, Jae Eun; S. K. Lee; M. S. Jin; G. Cho; et al, SOLID STATE COMMUNICATIONS, v.72, no.8, pp.821 - 823, 1989 |
| Spin-orbit coupling in strongly correlated systems 김용관, 2017 가을 학술논문발표회 및 임시총회, 한국물리학회, 2017-10-25 |
| Spin-orbit density functional and ab initio study of HgX(n) (X=F, Cl, Br, and I; n=1, 2, and 4) Kim, Joonghan; Ihee, Hyotcherl; Lee, Yoon Sup, JOURNAL OF CHEMICAL PHYSICS, v.133, no.14, 2010-10 |
| Spin-orbit density functional theory calculations for (X = F, Cl, Br and I) molecules Cho, WK; Choi, YJ; Lee, Yoon Sup, MOLECULAR PHYSICS, v.103, no.15-16, pp.2117 - 2122, 2005-08 |
| Spin-orbit density functional theory calculations for heavy metal monohydrides Choi, YJ; Lee, Yoon Sup, JOURNAL OF CHEMICAL PHYSICS, v.119, no.4, pp.2014 - 2019, 2003-07 |
| Spin-orbit density functional theory calculations for TlAt with relativistic effective core potentials Choi, YJ; Bae, C; Lee, Yoon Sup; Leet, S, BULLETIN OF THE KOREAN CHEMICAL SOCIETY, v.24, no.6, pp.728 - 730, 2003-06 |
| Spin-orbit effects calculated by a configuration interaction method using determinants of two-component molecular spinors: Test calculations on Rn and TlH Kim, M.C.; Lee, S.Y.; Lee, Yoon Sup, CHEMICAL PHYSICS LETTERS, v.253, no.3-4, pp.216 - 222, 1996-05 |
| Spin-orbit effects calculated by two-component coupled-cluster methods: test calculations on AuH, Au-2, TlH and Tl-2 Lee, HS; Han, YK; Kim, MC; Bae, CB; Lee, Yoon Sup, CHEMICAL PHYSICS LETTERS, v.293, no.1-2, pp.97 - 102, 1998-08 |
| Spin-orbit effects for the diatomic molecules containing halogen elements studied with relativistic effective core potentials: Hx, X2 (X = Cl, Br and I) and IZ (Z = F, Cl and Br) molecules Lee, HS; Cho, WK; Choi, YJ; Lee, Yoon Sup, CHEMICAL PHYSICS, v.311, no.1-2, pp.121 - 127, 2005-04 |
| Spin-orbit effects on structures of closed-shell polyatomic molecules containing heavy atoms calculated by two-component Hartree-Fock method Han, YK; Bae, C; Lee, Yoon Sup; Lee, SY, JOURNAL OF COMPUTATIONAL CHEMISTRY, v.19, no.13, pp.1526 - 1533, 1998-10 |
Spin-orbit Effects on the Structure of Haloiodomethane Cations CH2XI+ (X=F, Cl, Br, and I) Kim, Hyoseok; Park, Young Choon; Lee, Yoon Sup, BULLETIN OF THE KOREAN CHEMICAL SOCIETY, v.35, no.3, pp.775 - 782, 2014-03 |
| Spin-Orbit Effects on the structures and Properties of the Ground State Molecules Lee, Yoon Sup, Three Days Journey from Atoms to Solids, 1997 |
| Spin-orbit effects on the transactinide p-block element monohydrides MH (M=element 113-118) Han, YK; Bae, C; Son, SK; Lee, Yoon Sup, JOURNAL OF CHEMICAL PHYSICS, v.112, no.6, pp.2684 - 2691, 2000-02 |
| Spin-orbit scattering effect on the oscillatory T-c of superconductive/magnetic multilayers Oh, SJ; Kim, Yong-Hyun; Youm, Do-Jun; Beasley, MR, PHYSICAL REVIEW B, v.63, no.5, 2001-02 |
| Spin-orbit torque and Dzyaloshinskii-Moriya Interaction in Co films contacted with various 3d, 4d, 5d transition metals Cho, CG; Hwang, HS; Kim, DJ; Yun, SJ; Kim, DH; Moon, J; Je, SG; et al, 한국자기학회 하계 학술대회, 한국자기학회, 2015-05-30 |
| Spin-Orbit Torque and Magnetic Damping in Tailored Ferromagnetic Bilayers Lee, DongJoon; Kim, JongHyuk; Park, HeeGyum; Lee, Kyung-Jin; Ju, Byeong-Kwon; Koo, Hyun Cheol; Min, Byoung-Chul; et al, PHYSICAL REVIEW APPLIED, v.10, no.2, 2018-08 |
| Spin-orbit torque and orbital torque arising from 3d transition metalslink Kang, Jun-Ho; Kim, Kab-Jin; et al, 2021 |
| Spin-orbit torque based magnetic random access memory 박병국, 제24회 한국반도체학술대회, 한국물리학회, 한국재료학회, 2017-02-15 |
| Spin-Orbit Torque Driven Magnetization Switching and Precession by Manipulating Thickness of CoFeB/W Heterostructures Kim, Changsoo; Chun, Byong Sun; Yoon, Jungbum; Kim, Dongseuk; Kim, Yong Jin; Cha, In Ho; Kim, Gyu Won; et al, ADVANCED ELECTRONIC MATERIALS, v.6, no.2, 2020-02 |
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