スポンサーリンク
Department of Applied Physics, Osaka University | 論文
- Investigation of Energy Dissipation of Electrons in Al- and Cu-Targets by Monte Carlo Method
- Monte Carlo Simulations on Scattering of Bombarded Ions in Solids
- レーザー顕微鏡における空間コヒーレンスの制御方法
- Carbon Nanoarch Encapsulating Fe Nanowire on Ni(111)
- Electronic and Oxygen Migration Properties of Monoclinic La
- 25aYF-1 Kondo effect and magnetic frustration in a system of magnetic trimer on a metal surface
- W(110)上の Co/Ni 多重層における磁気異方性の理論的研究
- Interplay between Plasmon Luminescence and Vibrationally Resolved Molecular Luminescence Induced by Scanning Tunneling Microscopy
- Therapeutic Modality of 11 Patients with TTP in a Single Institution in Miyazaki from 2000 to 2011
- Effects of Interference between Energy Absorption Processes of Molecule and Surface Plasmons on Light Emission Induced by Scanning Tunneling Microscopy
- Studies of the hydrous tin(IV) oxide ion exchanger. V. The sodium isotopic exchange rate between the exchanger in the Na+ form and aqueous solutions.
- Effects of Interference between Energy Absorption Processes of Molecule and Surface Plasmons on Light Emission Induced by Scanning Tunneling Microscopy
- Ion-exchange properties and thermal stability of hydrous titanium(VI)-zirconium(IV) oxide ion exchanger.
- Studies of the hydrous niobium(V) oxide ion exchanger. II. Affinity for various cations.
- Ion-exchange property and thermal stability of hydrous metal oxide ion exchangers.
- Studies of the hydrous niobium(V) oxide ion exchanger. IV. The rate of the isotopic exchange of sodium ions between the exchanger in the Na+ form and aqueous solutions.
- Studies of the hydrous silicon-titanium(IV) oxide ion exchanger. II. Affinity for various cations and thermal stability.
- Studies of hydrous tin(IV) oxide ion-exchangers. I. A method for synthesis and some properties.
- Studies of the Hydrous Zirconium(IV) Oxide Ion Exchanger. II. The Rate of Isotopic Exchange of Sodium Ions between the Exchanger in the Na+ Form and Aqueous Solutions.
- Studies of the hydrous tin(IV) oxide ion exchanger. IV. The effect of heat treatment.