Finally, a planar proton exchanged waveguide on LiNbO3 is completed.
最终制作成功质子交换铌酸锂平板波导。
The citrate method was adopted to prepare LiNbO3 ferroelectric film.
采用柠檬酸盐法制备铌酸锂铁电薄膜。
The LiNbO3's diffraction efficiency is over 14%. Dumping ratio is 50%.
而铌酸锂的衍射效率可达14%以上,倒空比为50%。
This method can be used to check the usage feasibility of LiNbO3 substrate.
该方法可以用于分析待测铌酸锂基片是否可以用作衬底。
Secondly, two novel ROF system schemes based on the LiNbO3 phase modulator are accomplished.
采用铌酸锂相位调制器设计了两种新型的ROF系统。
Ti: LiNbO3 phase modulator is the key device in closed-loop sawtooth modulation fiber-optic gyroscope.
铌酸锂相位调制器是实现锯齿波调制闭环光纤陀螺的关键器件。
Calculation was done to determine the index profiles of ti in-diffused LiNbO3 waveguides produced in our laboratory.
对实验室中制备的扩钛铌酸锂波导折射率轮廓进行了计算。
Based on the interference principle, a tunable proton exchanged LiNbO3 optical waveguide filter with cascade structure was simulated and designed.
根据光的干涉滤波原理,模拟设计质子交换铌酸锂光波导级联型滤波器。
The discussion is focused on the effect of polarization crosstalk in ti: LiNbO3 device, and some technical methods to decrease this effect are suggested.
重点讨论了调制器的偏振串扰对边带抑制影响的特点,提出了减小这类误差应采取的技术措施。
The waveguide modulator is made by depositing Aluminium as electrodes on the Ti-diffused LiNbO3 planar optical waveguide which is fabricated by ourselves.
光波导调制器是在自制的钛扩散铌酸埋平面光波导上蒸镀铝电极制成的。
This paper synthesized a series of zinc-doped lithium niobate polycrystals, and measured the melting temperature and Curie temperature of LiNbO3:Zn versus the zinc concentration.
本文配制了系列掺锌铌酸锂多晶料,测量了掺锌铌酸锂的熔化温度及居里温度随掺锌量的变化。
The influence of Li composition on VIS-light photorefraction, UV-light-induced Absorption and UV-light photorefraction in pure LiNbO3 crystals at low light intensity was investigated.
本文研究了低光强下锂组分对纯铌酸锂晶体的可见光折变、紫外光致吸收及紫外光折变性能的影响,发现了光折变中心种类和数量随晶体组分的渐变行为。
The influence of Li composition on VIS-light photorefraction, UV-light-induced Absorption and UV-light photorefraction in pure LiNbO3 crystals at low light intensity was investigated.
本文研究了低光强下锂组分对纯铌酸锂晶体的可见光折变、紫外光致吸收及紫外光折变性能的影响,发现了光折变中心种类和数量随晶体组分的渐变行为。
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