スポンサーリンク
Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan | 論文
- Anomalous Nernst Effect in an L10-Ordered Epitaxial FePt Thin Film
- Fabrication of Quasi-Phase-Matching Structure during Paraelectric Borate Crystal Growth
- Barrier Properties of Thin ZrNx Films Prepared by Radical-Assisted Surface Reaction
- Atomic Layer Deposition of Thin VNx Film from Tetrakis(diethylamido)vanadium Precursor
- Spin Pumping without Three-Magnon Splitting in Polycrystalline Bi1Y2Fe5O12/Pt Bilayer Structure
- Epitaxial Integration of (100) Bi4Ti3O12 with (0001) ZnO through Long-Range Lattice Matching
- Site Occupancies of Hydrogen in Nb Alloyed with Oversized Ta Atoms or Undersized Mo Atoms
- Filterless Ultraviolet Detector Based on Cerium Fluoride Thin Film Grown by Pulsed Laser Deposition
- Epitaxy of Orthorhombic BaSi2 with Preferential In-Plane Crystal Orientation on Si(001): Effects of Vicinal Substrate and Annealing Temperature
- Tilted Domain and Indium Content of InGaN Layer on m-Plane GaN Substrate Grown by Metalorganic Vapor Phase Epitaxy
- Magnetic Anisotropy and Chemical Order of Artificially Synthesized L10-Ordered FeNi Films on Au--Cu--Ni Buffer Layers
- A New Growth Mechanism of Polar Nanoregions by Phonon-Relaxation Mode-Coupling in a Relaxor Ferroelectric
- Synthesis and Specific Heat of CaPdH3-\delta with the Perovskite Structure
- Elastic Properties of Pd-Based Bulk Metallic Glasses Studied by Ultrasouond Spectroscopy
- Antiferromagnetic Alignment of Magnetic Dipolar Moments Observed by Neutron Powder Diffraction in Rare-Earth Palladium Bronze PrPd3S4
- Single Crystal Growth and Characterizations of A_3BC_3D_2O_-Type Compounds for Piezoelectric Applications
- Epitaxial Integration of (100) Bi_4Ti_3O_ with (0001) ZnO through Long-Range Lattice Matching
- High Field Neutron Diffraction Studies on Metamagnetic Transition of Multiferroic BiFeO3
- Computational Investigation of Relationship between Shear Stress and Multicrystalline Structure in Silicon
- Electronic and Transport Properties of Ferrocene: Theoretical Study