\begin{document}${\mu _{{\rm{B}}}}$\end{document}local magnetic moment, while in a range of –1.1%—2%, MoGa is in high spin state (HSS) with a 3\begin{document}${\mu _{{\rm{B}}}}$\end{document}moment. The magnetic interactions between MoGa and MoGa are all ferromagnetic for LSS and so is the case for HSS, although they are different in coupling intensity and mechanism. In particular, appropriate compressive strains can improve the strength of ferromagnetic coupling effectively and are favorable for the preparation of the GaSb-based diluted magnetic semiconductors with high Curie temperatures and inherent ferromagnetism. Moreover, we find that Mo can greatly improve the polarization capability of GaSb and play a vital role in forming and separating the electron-hole pairs, and thus further improving the photoelectric conversion capability for long wave photons. The energy required to absorb photons for inter-band transition of electrons decreases because of the impurity levels induced by Mo, which leads the absorption edge to be red-shifted. The optical properties of (Ga,Mo)Sb in infrared region are further enhanced by the tensile strain."> - 必威体育下载

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Pan Feng-Chun, Lin Xue-Ling, Wang Xu-Ming
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  • Abstract views:4205
  • PDF Downloads:148
  • Cited By:0
Publishing process
  • Received Date:15 December 2021
  • Accepted Date:13 January 2022
  • Available Online:28 January 2022
  • Published Online:05 May 2022

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