以高纯Hg、In、Te单质为原料,通过元素直接化合反应合成了碲铟汞(MIT)多晶料,并利用合成的高纯多晶料,在特殊设计的坩埚中,采用垂直Bridgman法通过自发成核方式成功地生长了尺寸为Φ15 mm×175 mm的MIT单晶体.利用X射线粉末衍射技术对MIT晶体结构及物相进行的分析表明,所获得的晶体是单相的MIT晶体,为缺陷闪锌矿结构,空间群为F(43)m.采用高分辨X射线衍射仪测量了所生长MIT晶体的摇摆曲线,结果表明所得晶体完整性较好,为高质量的单晶体.对所生长的MIT晶体进行了热分析,发现在MIT晶体中有Hg溢出现象.
The polycrystalline material of mercury indium telluride(MIT)was synthesized by means of a direct reaction with high purity elements of Hg,In and Te.The MIT crystal with dimensions of Φ15 mm×175 mm was successfully grown by using vertical.Bridgman method with the synthesized polycrystalhne material in a pre-designed crucible.The as-grown crystal was analyzed by powder X-ray diffraction technology and determined to be singh phase with defect zinc-blende structure and space group F(43)m.The rocking curve of the as-grown crystal show that the crystal is a single crystal with high quality.The abnormal thermal behavior of Hg overflow can be found in MIT crystal through DSC and TG analysis,which is of great importance to crystal growth as well as device fabrication and application.
参考文献
[1] | 王领航,董阳春,介万奇.碲铟汞晶体的生长及其电学特性[J].半导体学报,2007(07):1069-1071. |
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