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机构地区:[1]四川大学物理科学与技术学院,成都610065
出 处:《原子与分子物理学报》2002年第1期69-74,共6页Journal of Atomic and Molecular Physics
摘 要:采用单组态坐标模型 ,应用由对角化d3 能量矩阵而获得的波函数 ,同时考虑了自旋 轨道相互作用和电 声子耦合 ,并定量计入了4 T2 与2 T1各电子态对R线的影响以及局域压缩率和整体压缩率之间的差异 ,从微观的角度 ,研究了GSGG∶Cr3 + 低温下光谱结构的特点以及压力导致的R1线和4 T2 宽带的移位。理论计算的结果与实验符合较好 ,R线的常压位置及其分裂、R1线的压致移位及其“反转”现象和4 T2On the basis of the single configurational coordinate(SCC) model, using the wave functions obtained from diagonalizing the d 3 energy matrix at normal and various pressures, taking into account both the electron-phonon coupling and spin-orbit interaction of 2E, 2T 1 and 4T 2, and considering the effects of all electronical states of 4T 2 and 2T 1 on R line as well as the difference between the local compressibility around Cr 3+ and the bulk one of the host crystal, spectroscopic features and pressure-induced shifts of R 1 line and 4T 2 broadband of GSGG∶Cr 3+ at low temperature have been microscopically studied. The calculated results are in very good agreement with experimental data. R-line energy at ambient pressure and its splitting, pressure-induced shifts of R 1 line and 4T 2 broadband, as well as the anticrossing behavior of pressure-induced shifts of R 1 line, have been reasonably explained.
关 键 词:光谱压致移位 自旋-轨道相互作用 电-声子耦合 可调谐激光晶体 GSGG:Cr^3+ 铬掺杂 低温 固体激光材料
分 类 号:O734[理学—晶体学] TN244[电子电信—物理电子学]
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