Your search keyword '"Su, L."' showing total 3 results

1. Effect of chemical modification on the structure and dielectric and magnetic properties of multiferroic (1 – x)BiFeO3- xDyFeO3 solid solution.

Author

Zhu, W. -M., Su, L. -W., Ye, Z. -G., and Ren, W.

Subjects

*SOLID solutions, *CRYSTALLIZATION, *CERAMICS, *DIELECTRICS, *FERRITES

Abstract

The solid solution of (1-x)BiFeO3-xDyFeO3 was prepared by solid state reactions in the form of ceramics. The effects of chemical modification by means of aliovalent ionic substitution of Ti4+ for Fe3+ on the structure and dielectric properties were investigated. A morphotropic phase boundary bridging the perovskite rhombohedral phase and the orthoferrite orthorhombic phase was identified at x around 0.1. The chemical modification was found to stabilize the perovsite phase. The dielectric performance of the solid solution was improved by the substitution of Ti4+ for Fe3+, which decreased the electric conductivity by reducing oxygen vacancies, as evidenced by the decrease in loss tangent values. Magnetic hysteresis and large saturated magnetization (0.5 μB/f.u.) were realized in 0.92BiFeO3-0.08DyFeO3 with 2% substitution of Ti4+ for Fe3+, which is believed to arise from the disruption of the spiral spin modulation after structural modification, and the interaction between the spins of the Dy3+ and Fe3+ at low temperatures which decouples the antiferromagnetic order between the Fe3+ ions. [ABSTRACT FROM AUTHOR]

Published

2009

2. Bulk crystal growth and efficient diode-pumped laser performance of Yb3+:Sc2SiO5.

Author

Zheng, L., Xu, J., Zhao, G., Su, L., Wu, F., and Liang, X.

Subjects

CRYSTAL growth, CRYSTAL grain boundaries, SOLUTION (Chemistry), CRYSTALLIZATION, ABSORPTION

Abstract

A bulk crystal of Yb:Sc2SiO5 (Yb:SSO) with favorable thermal properties was successfully obtained by the Czochralski method. The energy level diagrams for Yb:SSO crystal were determined by optical spectroscopic analysis and semi-empirical crystal-field calculations using the simple overlap model. The full width at half maximum of the absorption band centering at 976 nm was calculated to be 24 nm with a peak absorption cross-section of 9.2×10-21 cm2. The largest ground-state splitting of Yb3+ ions is up to 1027 cm-1 in a SSO crystal host. Efficient diode-pumped laser performance of Yb:SSO was primarily demonstrated with a slope efficiency of 45% and output power of 3.55 W. [ABSTRACT FROM AUTHOR]

Published

2008

3. Bulk crystal growth and efficient diode-pumped laser performance of Yb3+:Sc2SiO5.

Author

Zheng, L., Xu, J., Zhao, G., Su, L., Wu, F., and Liang, X.

Subjects

*CRYSTAL growth, *CRYSTAL grain boundaries, *SOLUTION (Chemistry), *CRYSTALLIZATION, *ABSORPTION

Abstract

A bulk crystal of Yb:Sc2SiO5 (Yb:SSO) with favorable thermal properties was successfully obtained by the Czochralski method. The energy level diagrams for Yb:SSO crystal were determined by optical spectroscopic analysis and semi-empirical crystal-field calculations using the simple overlap model. The full width at half maximum of the absorption band centering at 976 nm was calculated to be 24 nm with a peak absorption cross-section of 9.2×10-21 cm2. The largest ground-state splitting of Yb3+ ions is up to 1027 cm-1 in a SSO crystal host. Efficient diode-pumped laser performance of Yb:SSO was primarily demonstrated with a slope efficiency of 45% and output power of 3.55 W. [ABSTRACT FROM AUTHOR]

Published

2008