碘酸锂

α-碘酸锂晶体在低pH值溶液中的生长速率和生长形态

Growth Rates and Morphologies of α - LiIO_3 Crystals grown from Low pH Agueous Solutions

我们用偏光显微镜观察到c向电场作用下α-碘酸锂晶体中产生的离子输运经过的纤维状细直通道及其发展过程，为离子管道电导模型提供了有力的证据。

Having observed directly the fibre channels in which the ions transport and their relaxation with a polarizing microscope , we have provided a strong evidence for the model of the channel conductance in the c-direction .

碘酸锂晶体及其溶液中微量杂质的分析

Determination of Micro Quantity Impurities in LI Crystal and Its Solution

采用α-碘酸锂作为超声探头压电材料的试验

The use of α - liio_3 in an ultrasonic probe

碘酸锂晶体全部电弹常数的测量

Measurement of all components of the electro-elastic tensor for α - liio_3 crystal

用碘酸锂晶体进行光倍频对激光脉冲进行了二阶自相关测量，确定了脉冲宽度。

Laser pulse width has been measured by the LiIo_3 SHG autocorrelation method .

α-碘酸锂晶体的空间生长

Crystal growth of α lithium iodate in space

碘酸锂晶体生长过程的实时原位观察研究

Study on In Situ and Real Time Observation During the Process of Lithium Iodate Crystal Growth

α-碘酸锂在交变场下中子衍射异常和电行为的研究

Investigation of the neutron diffraction anomaly and electrical behaviour of a-liio_3 single crystal under AC field

用全息双频光栅剪切干涉仪实时观察α-碘酸锂晶体的生长过程

Real Observation on Growing Process of α - LiIO_3 Crystal by Holographic Double Frequency Grating Shearing Interferometer

α-碘酸锂的电流弛豫和偏压场作用下表观介电常数弛豫行为

Relaxation behaviors of the depolarization current and the apparent dielectric constant of α - liio_3 single crystals

静电场作用下α-碘酸锂单晶成为梯度晶体的实验研究

Experimental study of α - liio_3 single crystal becoming the crystal with a gradient in the lattice spacing by the action of DC field

在四圆中子衍射仪上对α-碘酸锂单晶在外加直流电场作用下的中子衍射强度增大和各向异性作了系统的测定。

The strong anisotropy of the neutron diffraction intensity enhancement effect observed in α - LiIO_3 single crystal under dc voltage was investigated systematically with a 4-circle neutron diffractometer .

本文利用投影法、光学傅里叶频谱分析法和纹影法，对静电场作用下α-碘酸锂单晶的透射光场异常分布作了进一步观察。

The abnormal phenomena in the transmitted light passing through a-LiIO_3 single crystals under the application of a DC field parallel to the c-axis have been further investigated by means of the direct projection method , the optical Fourier transfor-mation method and the Schlieren method .