Theory of the Phonon-Induced Hyperfine Coupling Constant of Mn^<2+> in the Cubic Coordination
スポンサーリンク
概要
- 論文の詳細を見る
The theory of the phonon-induced hyperfine coupling constant of Mn^<2+> in the cubic coordination using the proper angular average procedure is presented. The theory is applied to Mn^<2+> in SrF_2. The agreement between theory and experiment is within an order of magnitude. The zero-point contribution to the hyperfine coupling constant is -0.91 gauss and the hyperfine coupling constant in the "rigid lattice" at T=0°K is -104.4 gauss. It is also found that the previous theory will give rise to an error of about 15% in comparison with the estimate of the present theory at high temperatures.
- 理論物理学刊行会の論文
- 1970-01-25
著者
-
Huang Chao-yuan
Department Of Physics Case Western Reserve University
-
Huang Chao-yuan
Department Of Physics Case Western Reserve University : National Tsin Hua University
-
LUE Juh-Tzeng
Department of Physics, National Tsing Hua University
-
Lue Juh-tzeng
Department Of Physics National Tsing Hua University
-
Lue Juh-tzeng
Department Of Physics Duke University:national Tsing Hua University
-
HUANG Chao-Yuan
Department of Physics, Case Western Reserve University : National Tsin Hua University
関連論文
- Theory of the Phonon-Induced Hyperfine Coupling Constant of Mn^ in the Cubic Coordination
- High incidence of and risk factors for metachronous bilateral upper tract urothelial carcinoma in Taiwan
- The Temperature Dependence of the Zero Field Splitting of Eu^ in Fluorine Cubic Crystals
- The Van Vleck Orbit-Lattice Interaction in Rare-Earth Ethyl Sulfates and Its Application to Relaxation
- Paramagnetic Relaxation of Some Non-Kramers Rare-Earth Ethyl Sulfates
- The Temperature Dependence of the Hyperfine Coupling Constant of Eu^ (4f^7) in CaF_2 and SrF_2
- Temperature Dependence of the Mn^ Concentration in Sintered Mixed Compounds Cd_Zn_xS and CdS_Se_x
- EPR Studies of Mn^ in Cd_Mg_xTe Mixed Single Crystals