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Department Of Nuclear Engineering Faculty Of Engineering University Of Tokyo | 論文
- Particle Simulation of Relativistic Charged Beams Using Integral Kernel Method
- Second Order Effect of a High-β Tokamak Equilibrium
- Development of a Strain Measurement Method for Non-Plane Specimens by Means of Computer Picture Processing
- pH Dependence of Luminescence in Dye-Doped Sol-Gel Coating Film
- Humidity Dependence of Photoluminescence in Coumarin-4-Doped Sol-Gel Coating Film
- Optical pH Sensing Properties of Coumarin-4-Doped Sol-Gel Coating Film
- Formation of spherulite and metastable phase in stoichiometric Ba2Si3O8 glass
- Inelastic light scattering from nanocrystallizing niobiotellurite glass: an insight into the metastable phase and phase-transformation dynamics
- Second-Order Optical Nonlinearity of LaBGeO_5, LiBGe04 and Ba_2TiGe_2O_8 Crystals in Corresponding Crystallized Glasses : Optics and Quantum Electronics
- Environmental and Economical Assessment of Various Fusion Reactors by the Calculation of CO2 Emission Amounts
- Analysis of Particle Orbits in a Spherical Tokamak-Stellarator Hybrid System (TOKASTAR) and Experiments in the Compact-TOKASTAR Device
- Structurally-Unstable Electrostatic Potentials in Plasmas : Condensed Matter and Statistical Physics
- Ferroelectric Properties and Second Harmonic Intensities of Stillwellite-Type (La, Ln)BGeO_5 Crystallized Glasses(Optical Properties of Condensed Matter)
- Preparation and Characterization of Dye-Doped Zirconia Gel Films from Zirconium Tetra-n-butoxide Stabilized with Diethanolamine or Acetoin
- Lead Zirconate Titanate Thick Films Fabricated from Sols with and without Its Powder(Surfaces, Interfaces, and Films)
- Variation in Preferred Orientations of TiN Thin Films Prepared by Ion Beam Assisted Deposition
- Consideration of Deformation of TiN Thin Films with Preferred Orientation Prepared by Ion-Beam-Assisted Deposition
- Pressure Effect on the Crystal Forms of RbCl and RbBr in Aqueous Solution
- Observation of Crystallization Process from Amorphous Bi_4Ti_3O_ Prepared by Rapid Quenching Method
- Mechanical Properties of TiN Films with the Preferred Orientations by Nano-Indentation Method