英语释义

1. a salt containing an anionic grouping of niobium and oxygen

片语

niobate ceramics铌酸盐陶瓷

new niobate新铌酸盐

cadmium niobate铌酸镉

tanto niobate钽铌酸盐

soluble niobate可溶性铌盐

uranium niobate铌酸铀

niobate crystal铌酸盐晶体

alkali niobate堿金属铌酸盐

lithium niobate[无化] 铌酸锂

bariumstrontium niobate铌酸锶钡

英汉例句

• lithium niobate (ln) is a quality multi-functional crystal, it has good piezoelectric, nonlinear-optic, electro-optic and photorefractive properties.

  晶体是一种优良的多功能晶体，具有优良的压电性能、非线性光学性能、电光及光折变性能等。

• project director, research project 「uv photorefractivity of hf- doped lithium niobate crystals」, tianjin natural science foundation.

  主持河北省自然科学基金项目「铁铪双掺铌酸锂晶体的光散射起源研究」。

• we have studied the influence of different annealing conditions on refractive index profiles of he and h ions implanted lithium niobate planar waveguides.

  研究了不同退火条件对氢离子和氦离子注入铌酸锂平面波导中折射率分布的影响。

• none buffered x cut lithium niobate electrode structure has the smallest half wave voltage (about 70% of z cut devices).

  铌酸锂的无隔离层x切电极结构有最小的半波电压，其大小约为z切器件的70％。

• the response time of self-pumped phase conjugates of ce-doped or mn-doped pottasiumsodium strontium barium niobate (knsbn) single-domain crystal is shortened obviously by using an intermittent light.

  发现采用间歇入射光可以显着缩短掺铈与掺锰钾钠铌酸锶钡单晶自泵浦江相共轭器的响应时间。

• as a result, we choice none-buffered x cut lithium niobate electrode structure to achieve the half wave voltage as low as possible.

  因此本文选择了无隔离x切衬底的调制结构，以实现尽可能低的半波电压长度乘积。

• the preparation methods of niobate ceramic powders are introduced and the current status of studies and applications of hydrothermal processing were analyzed emphatically.

  介绍了目前制备铌酸盐陶瓷粉体所用方法，重点说明了水热法在堿金属铌酸盐陶瓷材料制备中的研究和应用现状。

• project director, research project 「effect of spatial distribution of intrinsic defects on poling field of lithium niobate crystals」, the education department of hebei province.

  主持河北省教育厅项目「本征缺陷的空间分布对铌酸锂畴反转电场的影响研究」。

• we obtain a optical image amplification with high gain factor of 1583 in doped lithium niobate crystals.

  并在掺杂铌酸锂晶体中获得了高信噪比，信号光增益高达1583倍的光像放大。

• strontium sodium lithium niobate (snln) single crystal possesses good electro-optical properties, but at room temperature only its metastable phase can be obtained.

  铌酸锶钠锂单晶具有优良的电光性能，但它在室温下为亚稳相。

• project director, research project 「uv photorefractivity of hf- doped lithium niobate crystals」, tianjin natural science foundation.

  主持天津市自然科学基金项目「掺铪系列晶体的紫外光折变研究」。

• potassium lithium niobate (kln) has good photoelectric, piezoelectric and nonlinear optical properties, which has broad application in integrated optics and integrated circuits.

  铌酸钾锂具有良好的光电、压电及非线性光学性能，在集成光学、集成电路等领域具有广阔的应用前景。

• the general formula, cation site occupancy and its coordination number in the structure of tungsten bronze niobate crystals are discussed.

  讨论了钨青铜结构铌酸盐晶体的化学通式，晶体结构中的阳离子占位及其配位数。

• the microscopic structure of lithium niobate crystals is deeply studied by investigating geometric characteristics of the constituent structural units or atomic groups.

  利用铌酸锂晶体的结晶学结构特征，从微观角度上分析和研究了铌酸锂晶体的结构与离子迁移之间的关系规律。

• nano-sized silver sodium niobate tantalate was studied in this paper using wet-chemical method.

  对液相法合成钽铌酸银钠的纳米粉体进行了研究。

• the principle, manufacture and application of periodically poled lithium niobate are introduced in detail.

  详细介绍了一种波长转换效率很高的周期极化铌酸锂的原理、制作及应用。

• the relationship between the crystallographic structure and ionic migration of lithium niobate single crystals are microscopically analyzed and investigated by their crystallographic characteristics.

  利用铌酸锂晶体的结晶学结构特征，从微观角度上分析和研究了铌酸锂晶体的结构与离子迁移之间的关系规律。

• perovskite type lead magnesium niobate (pmn) is a relaxor ferroelectric.

  钙钛矿结构铌镁酸铅（pmn）是弛豫铁电体的典型代表。

• project director, research project 「origin of light-induced scattering in lithium niobate doubly doped with fe and hf」, national natural science foundation.

  主持国家自然科学基金项目「铁铪双掺铌酸锂晶体的光散射起源研究」。

• dissertation title: study on properties and growth of near-stoichiometric lithium niobate crystals.

  论文题目：近化学计量比铌酸锂晶体的生长及性能研究。

• starting from the crystallographic data of lithium niobate and lithium tantalate crystals, structural characteristics and chemical bonding behaviors of both crystals are studied.

  从铌酸锂和钽酸锂晶体的结晶学数据出发，分析其结构特征和组成化学键的结合情况。

• but the researchers were able to pull all these tricks off at once using a lithium niobate crystal doped with rare earth ions and chilled to -454 degrees.

  不过研究人员使用一种掺杂稀土离子并冷冻至华氏-454度（约-270℃）的铌酸锂晶体一次性解决了所有问题。

• the history and prospect of periodically poled lithium niobate technique is briefly introduced.

  本文简要介绍了周期极化铌酸锂的发展历程和应用前景。

• the light amplification mechanism of fanning noise in doped lithium niobate crystals was analyzed and the light amplification competition between the signal beam and the fanning noise was discussed.

  分析了掺杂铌酸锂晶体的扇形噪声光的形成机制，讨论了信号光与扇形噪声光之间的光放大竞争问题。