Ellipsometric study of Mn-doped $Bi_4Ti_3O_{12}$ thin films

  • Yoon, Jae-Jin (Nano-Optical Property Laboratory and Department of Physics, Kyung Hee University) ;
  • Ghong, Tae-Ho (Nano-Optical Property Laboratory and Department of Physics, Kyung Hee University) ;
  • Jung, Yong-Woo (Nano-Optical Property Laboratory and Department of Physics, Kyung Hee University) ;
  • Kim, Young-Dong (Nano-Optical Property Laboratory and Department of Physics, Kyung Hee University) ;
  • Seong, Tae-Geun (Department of Nano Semiconductor Engineering, Korea University) ;
  • Kang, Lee-Seung (Department of Materials Science and Engineering, Korea University) ;
  • Nahm, Sahn (Department of Materials Science and Engineering, Korea University)
  • 발행 : 2010.08.18

초록

$Bi_4Ti_3O_{12}$ ($B_4T_3$) is a unique ferroelectric material that has a relatively high dielectric constant, high Curie temperature, high breakdown strength, and large spontaneous polarization. As a result this material has been widely studied for many applications, including nonvolatile ferroelectric random memories, microelectronic mechanical systems, and nonlinear-optical devices. Several reports have appeared on the use of Mn dopants to improve the electrical properties of $B_4T_3$ thin films. Mn ions have frequently been used for this purpose in thin films and multilayer capacitors in situations where intrinsic oxygen vacancies are the major defects. However, no systematic study of the optical properties of $B_4T_3$ films has appeared to date. Here, we report optical data for these films, determined by spectroscopic ellipsometry (SE). We also report the effects of thermal annealing and Mn doping on the optical properties. The SE data were analyzed using a multilayer model that is consistent with the original sample structure, specifically surface roughness/$B_4T_3$ film/Pt/Ti/$SiO_2$/c-Si). The data are well described by the Tauc-Lorentz dispersion function, which can therefore be used to model the optical properties of these materials. Parameters for reconstructing the dielectric functions of these films are also reported. The SE data show that thermal annealing crystallizes $B_4T_3$ films, as confirmed by the appearance of $B_4T_3$ peaks in X-ray diffraction patterns. The bandgap of $B_4T_3$ red-shifts with increasing Mn concentration. We interpret this as evidence of the existence deep levels generated by the Mn transition-metal d states. These results will be useful in a number of contexts, including more detailed studies of the optical properties of these materials for engineering high-speed devices.

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