Giant modification of the magnetocrystalline anisotropy in transition-metal monolayers by an external electric field K Nakamura, R Shimabukuro, Y Fujiwara, T Akiyama, T Ito, AJ Freeman
Physical review letters 102 (18), 187201, 2009
414 2009 An empirical potential approach to wurtzite–zinc-blende polytypism in group III–V semiconductor nanowires T Akiyama, K Sano, K Nakamura, T Ito
Japanese journal of applied physics 45 (3L), L275, 2006
271 2006 Role of an interfacial FeO layer in the electric-field-driven switching of magnetocrystalline anisotropy at the Fe/MgO interface K Nakamura, T Akiyama, T Ito, M Weinert, AJ Freeman
Physical Review B 81 (22), 220409, 2010
197 2010 Electric field effects on magnetocrystalline anisotropy in ferromagnetic Fe monolayers R Shimabukuro, K Nakamura, T Akiyama, T Ito
Physica E: Low-dimensional Systems and Nanostructures 42 (4), 1014-1017, 2010
178 2010 Structural stability and electronic structures of InP nanowires: Role of surface dangling bonds on nanowire facets T Akiyama, K Nakamura, T Ito
Physical Review B 73 (23), 235308, 2006
139 2006 Surface Stability and Growth Kinetics of Compound Semiconductors: An Ab Initio -Based Approach Y Kangawa, T Akiyama, T Ito, K Shiraishi, T Nakayama
Materials 6 (8), 3309-3360, 2013
101 2013 Electric-field-induced modification of the magnon energy, exchange interaction, and Curie temperature of transition-metal thin films M Oba, K Nakamura, T Akiyama, T Ito, M Weinert, AJ Freeman
Physical review letters 114 (10), 107202, 2015
58 2015 Band alignment tuning in twin-plane superlattices of semiconductor nanowires T Akiyama, T Yamashita, K Nakamura, T Ito
Nano letters 10 (11), 4614-4618, 2010
50 2010 Reaction mechanisms of oxygen at SiO2/Si (1 0 0) interface T Akiyama, H Kageshima
Surface science 576 (1-3), L65-L70, 2005
49 2005 Nanoscale science and technology-055001 Theoretical Investigation of Effect of Side Facets on Adsorption-Desorption Behaviors of In and P Atoms at Top Layers in InP Nanowires T Yamashita, T Akiyama, K Nakamura, T Ito
Japanese Journal of Applied Physics 50 (5), 2011
48 2011 Constraint density functional calculations for multiplets in a ligand-field applied to Fe-phthalocyanine K Nakamura, Y Kitaoka, T Akiyama, T Ito, M Weinert, AJ Freeman
Physical Review B 85 (23), 235129, 2012
44 2012 Surface reconstruction and magnesium incorporation on semipolar T Akiyama, D Ammi, K Nakamura, T Ito
Physical Review B 81 (24), 245317, 2010
44 2010 First-principles investigations for oxidation reaction processes at 4H-SiC/SiO2 interface and its orientation dependence T Akiyama, A Ito, K Nakamura, T Ito, H Kageshima, M Uematsu, ...
Surface Science 641, 174-179, 2015
43 2015 Stability of hydrogen on nonpolar and semipolar nitride surfaces: Role of surface orientation T Akiyama, T Yamashita, K Nakamura, T Ito
Journal of crystal growth 318 (1), 79-83, 2011
43 2011 Origin of electric-field-induced modification of magnetocrystalline anisotropy at Fe (001) surfaces: Mechanism of dipole formation from first principles K Nakamura, R Shimabukuro, T Akiyama, T Ito, AJ Freeman
Physical Review B 80 (17), 172402, 2009
39 2009 A simple approach to polytypes of SiC and its application to nanowires T Ito, K Sano, T Akiyama, K Nakamura
Thin Solid Films 508 (1-2), 243-246, 2006
38 2006 Microscopic mechanism of interfacial reaction during Si oxidation T Akiyama, H Kageshima
Applied surface science 216 (1-4), 270-274, 2003
36 2003 Effect of heavy-metal insertions at Fe/MgO interfaces on electric-field-induced modification of magnetocrystalline anisotropy K Nakamura, T Nomura, AM Pradipto, K Nawa, T Akiyama, T Ito
Journal of Magnetism and Magnetic Materials 429, 214-220, 2017
35 2017 Atomic and electronic structures of CaCO 3 surfaces T Akiyama, K Nakamura, T Ito
Physical Review B 84 (8), 085428, 2011
35 2011 Effects of facet orientation on relative stability between zinc blende and wurtzite structures in group III–V nanowires T Yamashita, T Akiyama, K Nakamura, T Ito
Japanese Journal of Applied Physics 49 (5R), 055003, 2010
35 2010 
Hiroyuki KageshimaShimane UniversityBestätigte E-Mail-Adresse bei riko.shimane-u.ac.jp
