1) cylindrical symmetric microwave cavity
圆柱对称微波腔
1.
An analysis of cylindrical symmetric microwave cavity using multipole theory method;
用多极理论计算具有复杂几何形状、圆柱对称微波腔的谐振频率,推导出用多极理论计算圆柱对称微波腔谐振频率的本征值方程。
2) cylindrical cavity
圆柱微波腔
3) Cylindrical coaxial cavity resonator
微波同轴圆柱谐振腔
5) circular symmetric resonator
圆镜对称腔
1.
Based on diffraction integral formula and selfreproducing principle,diffraction integral equation for transverse modes in a circular symmetric resonator with an aperture diaphragm was disintegrated to finitesum matrix equation,and field distributions of transverse modes in the resonator were calculated by solving matrix for eigenvalues and eigenvectors.
利用衍射积分公式和自再现原理,将含孔光阑的圆镜对称腔横模满足的衍射积分方程分解为有限和矩阵方程,并利用求解矩阵本征值和本征向量的方法对该腔横模场分布进行计算。
6) cylindrical micro-cavity
圆柱形微腔
1.
Whispering-gallery modes based on evanescent field in cylindrical micro-cavity;
消逝场耦合圆柱形微腔中回音壁模式结构的实验研究
2.
A cylindrical micro-cavity was made by immersing a silica optical fiber into a low refractive index dye solution.
将石英光纤浸入低折射率的染料溶液中后构成圆柱形微腔。
补充资料:腔内微波治疗
腔内微波治疗
intra luminal microwave treatment
微波电极置于有袋尿管内,将尿管固定于前列腺部尿道内,局部温度维持在43°C,放置3h,可用于前列腺增生疾病的治疗。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条