利用双载流子四陷阱模型解释Zn:Fe:LiNbO3晶体记录过程中的自擦除现象

比较了掺Fe量相同的两种晶体Fe:LiNbO3和Zn:Fe:LiNbO3的光折变性能，并且给出了Zn:Fe:LiNbO3晶体光电导和衍射效率与入射总光强的关系.在Zn:Fe:LiNbO3晶体二波耦合实验中观察到衍射效率随记录时间的增长先增加，达到饱和后又逐渐减小的自擦除现象，并采用光折变双载流子四陷阱模型对该现象加以解释. 在此基础上选择合适的曝光时序，利用角度复用技术在该晶体中进行体全息存储，并在同一点上存入30幅图像. 关键词： 双载流子四陷阱模型 自擦除 电子-空穴竞争 角度复用     

Ce：Fe：LiNbO3晶体光衍射效应的研究

减小Ｃｅ：Ｆｅ：ＬｉＮｂＯ３晶片的厚度，扩大泵浦光束直径，时由光爬行应晶体产生衍射自增强。单光束辐照Ｃｅ：Ｆｅ：ＬｉＮｂＯ３晶体时，出现变偏振现象等各向异性自衍射。本文对上述现象的形成机理进行了探讨。     

离子交换LiNbO_3:Fe平面光波导中两波混合的研究

本文利用耦合波理论分析推导了单模平面光波导中两波混合的耦合波方程和弱相干光放大率的表示式.并且,在LiNbO_3:Fe单模平面光波导中进行了两波混合的实验研究,得到了与理论分析相符合的结果.     

LiNbO_3:In:Fe:Cu晶体中的双波长非易失存储

为了提高晶体的非易失存储性能,采用双波长存储技术实验研究了LiNbO3:In:Fe:Cu晶体中的非易失存储,折射率调制度为1.04×10-4,记录灵敏度达到0.965 cm/J.与传统的双色非易失记录相比,该方法大幅度地提高了光栅的强度和记录的灵敏度.利用Kukhtarev带输运模型对双波长非易失记录过程中光栅的动态演化过程进行了数值模拟,同时讨论了氧化还原程度对双波长非易失全息记录的影响.理论与实验符合的较好.     

LiNbO_3:Fe晶体中光写入平面光波导的导光特性研究

从光折变效应的单中心模型和载流子的光伏迁移机理出发给出了高斯片光在LiNbO3:Fe晶体中导致的折射率变化分布的解析表达式 .利用片光以“三明治”辐照方式在LiNbO3:Fe晶体中写入了平面光波导结构 .用切片干涉法测量了波导区的折射率分布 ,并对波导进行了简单的导光测试 .根据射线方程以及波导的折射率分布对光写入波导的导光特性进行了模拟计算分析 .研究结果表明 ,在LiNbO3:Fe晶体中光写入光波导是可行的     

近化学计量比双掺铁锰铌酸锂晶体紫外光致吸收特性的研究

研究了不同锂含量的双掺铁锰铌酸锂晶体的紫外光致吸收特性,结果表明,同成分晶体的紫外光致吸收系数较低,随着锂含量的增加,晶体的紫外光致吸收系数逐渐增大,当晶体中的锂含量达到49.57mol%附近时,紫外光致吸收系数达到最大值4.20 cm-1,进一步增加晶体中的锂含量,饱和光致吸收系数开始下降。在此基础上,提出了近化学计量比双掺铁锰铌酸锂晶体的双色非挥发全息存储的三中心模型,即随着晶体锂含量的增加,双掺铁锰晶体的光折变中心除了Fe2+/Fe3+,Mn2+/Mn3+外,还将增加双极化子/小极化子中心。     

Study of oscillatory behavior of recording process arising from electron–hole competition in strongly oxidized LiNbO3:Ce:Cu

We have investigated ultraviolet (UV) photorefractive effect of lithium niobate doubly doped with Ce and Cu. It is found the diffraction efficiency shows oscillating behavior under UV-light-recording. A model in which electrons and holes can be excited from impurity centers in the UV region is proposed to study the oscillatory behavior of the diffraction efficiency. On the basis of the material equations and the coupled-wave equations, we found that the oscillatory behavior is due to the oscillation of the relative spatial phase shift Φ. And the electron–hole competition may cause the oscillation of the relative spatial phase shift. A switch point from electron grating to hole grating is chosen to realize nonvolatile readout by a red light with high sensitivity (0.4 cm/J).     

Study of near-infrared nonvolatile two-center holographic recording in LiNbO3:Fe:Rh crystal

The near-infrared nonvolatile holographic recording has been realized in a doubly doped LiNbO₃:Fe:Rh crystal by the traditional two-center holographic recording scheme, for the first time. The recording performance of this crystal has been investigated by recording with 633 nm red light, 752 nm red light and 799 nm near-infrared light and sensitizing with 405 nm purple light. The experimental results show that, co-doped with Fe and Rh, the near-infrared absorption and the photovoltaic coefficient of shallow trap Fe are enhanced in this LiNbO₃:Fe:Rh crystal, compared with other doubly doped LiNbO₃ crystals such as LiNbO₃:Fe:Mn. It is also found that the sensitizing light intensity affects the near-infrared recording sensitivity in a different way than two-center holographic recording with shorter wavelength, and the origin of experimental results is analyzed.     

MgO:LiNbO_3与LiNbO_3质子交换光波导光学及结构特征的比较

利用退火的质子交换法在MgO :LiNbO3和LiNbO3两种材料上制作了光波导 ,得到了质子交换的扩散特性以及光波导折射率分布的退火规律 .通过x射线衍射和OH- 红外吸收谱方法研究了MgO :LiNbO3和LiNbO3质子交换光波导的结构特征及其与退火参数的关系 ,对MgO :LiNbO3和LiNbO3光波导光学和结构特征的结果进行了分析和比较     

Forced oscillator model of dynamic spatial charge field in the reduced Zn:Fe:LiNbO3 crystal

Holographic data storage is promised to be the next-generation optical storage technology for many years. The Zn:Fe:LiNbO₃ crystal is studied widely because of its promising holographic storage properties. The forced oscillator model is used to explain the self-erasing phenomenon in the reduced Zn:Fe:LiNbO₃ crystals. It is showed that the total spatial charge field is dominated by two kinds of carrier with different respond time, which are electron and hole, respectively. The cooperative action of two kinds carrier induces that the total charge field non-monotonically varies with the recording time. The same diffraction efficiency of hologram with equal exposure energy is realized by the self-erasing property. The precision of the optical correlation recognition based on holographic storage will be improved.