The dielectric loss tanfi of half-doped manganite Lao.sCao.sMnO3 is investigated using Green's function technique. The Lao.sCao.sMnO3 is described by the Kondo-lattice model in the double exchange limit, taking into ...The dielectric loss tanfi of half-doped manganite Lao.sCao.sMnO3 is investigated using Green's function technique. The Lao.sCao.sMnO3 is described by the Kondo-lattice model in the double exchange limit, taking into account the Jahn- Teller distortion and the super-exchange interaction between the localized electrons. It is found that the intensity of tans decreases with increasing [e]TI, V, and U. It is also observed that the transition temperature Tp rises as l eJTI and U increase. It is worth noting that Tp remains unchanged and the strength of tans increases with increasing g. The calculated dielectric loss results are explained theoretically, and these behaviors are in qualitative agreement with the experimental results.展开更多
基金supported by the Priming Scientific Research Foundation of Changzhou University,China(Grant Nos.ZMF1002133 and ZMF09020023)the National Natural Science Foundation of China(Grant No.51202195)
文摘The dielectric loss tanfi of half-doped manganite Lao.sCao.sMnO3 is investigated using Green's function technique. The Lao.sCao.sMnO3 is described by the Kondo-lattice model in the double exchange limit, taking into account the Jahn- Teller distortion and the super-exchange interaction between the localized electrons. It is found that the intensity of tans decreases with increasing [e]TI, V, and U. It is also observed that the transition temperature Tp rises as l eJTI and U increase. It is worth noting that Tp remains unchanged and the strength of tans increases with increasing g. The calculated dielectric loss results are explained theoretically, and these behaviors are in qualitative agreement with the experimental results.
