SKK Building, Katahira 2
Aoba-ku, Sendai, 980-8577
Japan
Tohoku University
Neutron scintillator, Single crystal, LiCaAlF6, LiSrAlF6, Scintillation property
Nonstoichiometry, photoconversion, scintillator, eutectic, Raman Spectroscopy, energy transfer
A1. X-ray diffraction, A2.Single crystal growth, B1.Halides, B2.Scintillator materials, B3.Scintillators
A1. Solid solutions A2. Growth from melt A2. Single crystal growth B1. Calcium compounds B1. Inorganic compounds B1. Perovskites
garnet, perovskites, luminescence, Raman spectroscopy, scintillator, Judd-Ofelt theory
optical thermometry, single crystals, micro-pulling-down method, fluorescence intensity ratio method
A1. Radiation, A2. Single crystal growth, B1. Gadolinium compounds, B1. Oxides, B2. Scintillator materials, B3. Infrared devices