スポンサーリンク
Institute of Applied Physics and Center for Tsukuba Advanced Research Alliance (TARA), University of Tsukuba, 1-1-1 Tennodai, Tsukuba, Ibaraki 305-8573, Japan | 論文
- Moire-like Distribution of Local Tunneling Barrier Height of the Monolayer Graphite Adsorbed on Pt(111) Surface
- Local Tunneling Barrier Height Studies of the Initial Stage of Cs Adsorption on a Si(111) 7 x 7 Surface
- Scanning funneling Microscopy (STM)/LocaI Tunneling Barrier Height (LBH) Studies on Cs Adsorption on a Pt(111) Surface
- Molecular Beam Time of Flight Analysis of the Reaction Dynamics of Alkane Molecules Interacting with a Pt(111) Surface
- Inelastic Collision Processes of Methane and Ethane Molecules at a Pt(111) Surface Studied by Molecular Beam Scattering Techniques
- A Novel He Atom Scattering Technique Complementary to Temperature Programmed Desorption
- He Atomic Beam Scattering Study of Pt(111) Super-Structure Surface Induced by High Energy Molecular Beam of H_2O
- Velocity Distribution Measurements of a Supersonic Methane Molecular Beam Reflected from a Pt(111) Surface at Various Reflection Angles
- Surface Morphology of Ba Atomic Layer on a LiF(001) Surface Studied by He Atomic Beam Scattering
- Inelastic Rainbow Scattering of CH_4 Molecules from a LiF(001) Surface
- Ion Irradiation Effect on the Microscopic Potential Distribution of MgO Surface
- Electronic Modification of C60 Monolayers via Metal Substrates
- Local Tunneling Barrier Height Image of the Si(111)-(7×7) Surface
- Superiority of an AlN Intermediate Layer for Heteroepitaxy of Hexagonal GaN
- Atomic-Structure-Dependent Adsorption of Ammonia onto GaAs (111) B Surfaces
- Visualizing the Interrelation between Surface Topograph and Surface Potential by means of a Scanning Maxwell Stress Microscope
- Molecular Beam Study of H2O Interaction with Pt(111)
- Ordering of C_ on One-Dimensional Template of Single-Domain Ge(110)-16×2 and Si(110)-16×2 Surfaces
- Necessary Conditions for Two-Lobe Patterns in Field Emission Microscopy
- Localized and Delocalized Features of Microscopic Work Functions