生长了掺入不同浓度六价钼元素的铌酸锂晶体(LN∶Mo),并研究了它们在351 nm、488 nm、532 nm和671 nm处的光折变性能.实验结果表明0.5mol%为最佳掺杂量,此时LN∶Mo在各波段具有最快的响应速度和较好的饱和衍射效率.增加极化电流可以提高光折变性能,尤其当极化电流为145 mA时,掺杂量为0.5mol%的LN∶Mo晶体紫外光折变响应时间缩短至0.35 s.这些优异的全息存储性能归因于Mo6+占据了正常的Nb位.LN∶Mo晶体是实现全色全息存储的潜力材料.
参考文献
| [1] | Arizmendi L. .Photonic applications of lithium niobate crystals[J].Physica Status Solidi, A. Applied Research,2004(2):253-283. |
| [2] | The light fantastic[J].Nature,2003(6932):556-558. |
| [3] | ALEXANDER HELLEMANS .Holograms can store terabytes, but where?[J].Science,1999(5444):1502-1504. |
| [4] | Buse K.;Adibi A.;Psaltis D. .Non-volatile holographic storage in doubly doped lithium niobate crystals[J].Nature,1998(6686):665-668. |
| [5] | Hans J. Queisser;Eugene E. Haller .Defects in Semiconductors: Some Fatal, Some Vital[J].Science,1998(5379):945-950. |
| [6] | Kip D. .Photorefractive waveguides in oxide crystals: fabrication, properties, and applications [Review][J].Applied physics, B. Lasers and optics,1998(2):131-150. |
| [7] | Yongfa Kong;Jinke Wen;Huafu Wang .New doped lithium niobate crystal with high resistance to photorefraction—LiNbO_3:In[J].Applied physics letters,1995(3):280-281. |
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