Crystal Structure of γ-Ag_3SBr_<0.6>I_<0.4>(Condensed matter: structure and mechanical and thermal properties)
スポンサーリンク
概要
- 論文の詳細を見る
The crystal structure of γ-Ag_3SBr_<0.6>I_<0.4> is investigated by X-ray diffraction at 16K. The low-temperature y-phase of Ag_3SBr_<0.6>I_<0.4> belongs to an orthorhombic system with the space group C^7_<2υ>-Pnm2_1. From the results of Rietveld analysis, it is found that the γ-phase includes an ordered arrangement of Ag atoms. Silver atoms around S atoms construct a distorted octahedron in the crystal. The tetrahedron constructed by anions around Ag atoms is highly distorted.
- 社団法人日本物理学会の論文
- 2008-11-15
著者
-
SAKUMA Takashi
Institute for Solid State Physics,The University of Tokyo
-
Sakuma Takashi
Institute For Solid State Physics The University Of Tokyo:department Of Physics Faculty Of Science I
-
TAKAHASHI Haruyuki
Institute of Applied Beam Science, Ibaraki University
-
Lian Xiang
Institute Of Applied Beam Science Ibaraki University
-
Basar Khairul
Faculty Of Mathematics And Natural Sciences Institut Teknologi Bandung
-
Shimizu Norifumi
Institute Of Applied Beam Science Ibaraki University
-
Sakuma Takashi
Institute Of Applied Beam Science Ibaraki University
-
Xiang lian
Institute of Applied Beam Science, Ibaraki University
-
Takahashi Haruyuki
Institute Of Applied Beam Science Ibaraki University
-
Xiang Lian
Institute Of Applied Beam Science Ibaraki University
-
SAKUMA Takashi
Institute of Applied Beam Science, Ibaraki University
関連論文
- A Structural Phase Transition in Superionic Conductor Ag_3SI
- Quasi-Elastic Neutron Scattering Study of Aqueous Solutions of FeCl_3, NiCl_2 and MgCl_2
- The Existence of the Order Phase in Superionic Conductor Ag_3SI
- Incoherent Neutron Scattering Study of Proton Motions in Solid HCl
- Neutron Scattering Study of Phonon Dispersion Relations along[110]in TlCl
- Low-Temperature Phase in Superionic Conductor Ag_3SBr_xI_(Condensed matter : structure and mechanical and thermal properties)
- Crystal Structure of γ-Ag_3SBr_I_(Condensed matter: structure and mechanical and thermal properties)
- Calorimetric Study of Kinetic Glass Transition in Various Glasses