1.
Red GaInP/AlGaInP square microcavity lasers
红光GaInP/AlGaInP正方形微腔激光器
2.
FDTD Calculation of the Modes in an Square Microcavity
正方形光学微腔模式的FDTD计算
3.
Study on Mode Characteristics for Nanowire Optical Microcavity and Squre Optical Microcavity;
纳米线光学微腔与正方形光学微腔模式特性研究
4.
A square lines-source model for calculating transfer matrix of two-dimensional acoustic cavity
计算二维声腔传递矩阵的正方形线声源模型
5.
Very general systems of differential equations can be reduced to the normal form.
形式很普通的微分方程组可以化为正规的形式。
6.
Design of Structure and Fabrication Technology of High Sensitivity Displacement Sensor Based on Micro Ring Resonator
基于平面环形微腔的高精度位移传感器的设计及工艺方法研究
7.
Circles, stars, hearts and squares.
圆形,星形,心形,和正方形。
8.
Triangle, rectangle, square
三角形,长方形,正方形
9.
FDTD Calculation of the Modes in an Equilateral Triangle Microcavity;
等边三角形微腔模式的FDTD计算
10.
"Zi Wai Qiang Po" and Perfect Singing--On the Art Force and Situation Tensility of "Zi Wai Qiang Po" and "Zi Zheng Qiang Yuan"(Continued)
“字歪腔破”话美唱——论“字歪腔破”与“字正腔圆”的艺术合力与形情张力
11.
Line, circle, square and triangle
直线,圆形,正方形,三角形
12.
positive displacement self-priming progressive cavity rotary pump
正排量自吸分级腔螺旋形迥转泵
13.
The criteria of the slightly positive solutions or the slightly negative solutions for odd-orderneutral differential equations under the different variable coefficient are given.
本文给出了奇数阶中立型微分方程在不同的变系数情形下微正解或微负解存在的判据。
14.
Analyses of differential expression of microRNAs between oral squmaous cell carcinoma and normal oral mucosa
口腔鳞癌组织与口腔正常粘膜中微小RNA基因表达差异的分析
15.
Test method for the dead space of filtering particle respirator.
过滤式防微粒口罩死腔的试验方法.
16.
In the paper, the construction of minute pressure senser of square diaphragm is introduced and the design ideas have been analysed.
本文介绍了正方形膜片微压传感器的结构,分析了其设计思想。
17.
The sensitivity of minute pressure senser of square diaphragm has also been andlysed.
并就利用正方形膜片开发的微量程力敏器件的灵敏度作了分析。
18.
Triangle, rectangle, aquare and circle!
三角形,长方形,正方形和圆形!