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功能晶体材料创新团队

来源:|发布时间:2020-06-29 19:39:57

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(1)DAPOERCIDIANGUANGJINGTICAILIAONANYISHIYONGDECHUANTONGRENSHI,YOUXUANCHUTANNISUANJIA(KTa1-xNbxO3,KTN)JINGTIWEIKESHIYONGHUAERCIDIANGUANGJINGTICAILIAO,CONGLILUNHESHIYANLIANGFANGMIANFAZHANBINGYOUHUALEJINGTISHENGZHANGGONGYI,JIEJUELEYUANLIAOHUIFA、FEIYIZHIRONGRONG、XIANGBIANDENGJINGTISHENGZHANGPINGJINGDUIJINGTIZHILIANG、CHICUNYIJILIYONGLVDEXIANZHI,HUODELEGAOZHILIANG、DACHICUNJINGTI。

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TU2. XINXINGHENGXIANGJIGUANGPIANZHUANDIAOZHIJISHU

基于KTN晶体Kerr效应的电光调制技术在降低驱动电压、减小器件尺寸方面更具优势,更能满足未来激光器宽波段、小型化、集成化发展的需要。研究成果为新型电光晶体器件的设计和发展提供理论指导和实验依据,推动了我国激光技术的发展。

 Functional Crystal Materials Innovation Team
The Functional Crystal Materials Innovation Team focuses on the growth and characterization of electro-optic crystals, laser crystals and nonlinear optical crystals, as well as the design of photoelectric devices. Some crystals, such as KTa1-xNbxO3, La3Ga5SiO14, SrGdGa3O7 and MgSr2(BO3)2, have been grown and studied. Especially, the growth and study of KTa1-xNbxO3 electro-optic single crystals have been reached the international advanced level. We gain a breakthrough in electro-optic modulation and deflection based on the quadratic electro-optic effects of KTa1-xNbxO3 single crystals, which has potential applications in fields of optical communication, on screen display and biomedical engineering.
 

 

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