导出激光谐振腔自再现模的波型函数。
The eigen function of self-reproductive mode in laser resonator is derived.
对TEM模,分析了内导体形状、位置对谐振腔内电磁场分布的影响;以及它们对启动和稳定工作的影响。
For TEM model in coaxial resonant cavity, the influence of shape and position of inner conductor on electromagnetic field, start-up and steady work was studied.
采用矢量有限元方法计算了任意轴对称谐振腔高阶模的本征频率。
Eigenfrequencies of high order modes in the axial-symmetric cavities are computed with a vector finite element method.
在双模与多模近似情况下,对复合开放式谐振腔作为一个整体进行了分析,并数值计算了复合腔的谐振频率、Q值与场分布。
The resonance frequency, Q-value and field profile function are solved numerically. On the basis of this, the large signal analysis of it is carried out.
本文首先采用模式匹配法近似地分析了复杂结构介质加载谐振腔te _(011)模的谐振特性。
In this paper, the TE_ (011) mode's resonant characteristics of cavities loaded with complex structure dielectric are analyzed approximately by using the mode match method.
对薄片激光器的谐振腔进行了设计,采用平凹腔的结构,并使其在稳区工作并有较大的基模体积。
Resonator cavity of thin disk laser is designed, using plane-concave cavity to make it work stably and obtain large fundamental mode volume.
还进一步讨论了这种谐振腔的热稳定性、微扰稳定性以及简并模与非简并模之间的区别。
The thermal stability, disturbing stability and the differences between degenerate and nondegenerate modes are also discussed.
本文基于对上述模型的设计,讨论了谐振腔中工作物质的摆放,引导光束并且进行模式选择的选模光纤和锁模器件。
The place rule of work material, laser fiber to select mode and mode locking apparatus are researched in this paper.
测厚仪的主要特点是:用圆柱TE_(011)模谐振腔作为厚度的传感器,它将厚度参量转换为谐振频偏值;
The main features of the meter are as follows: The cylinder TE011 cavity with high Q is used as the sensor of the thickness. It transforms the thickness into resonant frequency shift.
该文针对TM 310模(主模)圆柱形谐振腔提出了一种新的杂模抑制方法。
A new parasitic-mode-suppressing method for TM310 mode (operating mode) cylindrical resonator is presented in this paper.
该文针对TM 310模(主模)圆柱形谐振腔提出了一种新的杂模抑制方法。
A new parasitic-mode-suppressing method for TM310 mode (operating mode) cylindrical resonator is presented in this paper.
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