该文以实验为基础,结合理论分析,叙述了能够对YAG脉冲激光器的输出波形进行有效的时域整形的技术—慢调Q腔倒空方法。
Combining the theoretical analysis, it relate a efficient technology that YAG laser output pulse's temporal wave shape is adjusted with slowly adjusting Q cavity flowing empty.
本文针对这一问题,对非稳腔的计算机辅助装调方法进行了研究。
In this article, the method of computer-aided alignment of unstable resonator is presented.
正如以上关于衬腔式复调乐调的讨论中所描述的那样,因为伴奏乐器只是重复唱调或是添加些许变奏,几乎或根本无和声。
There is little or no harmony since the accompanying instruments merely duplicate the singing line or provide a slight variation on it, as described in the discussion above on heterophony.
此调q方案同时提供了腔内损耗调制和对激光输出波长选择的功能。
Both functions of intracavity loss modulation and selection of laser output wavelength are simultaneously provided by this Q-modulation scheme.
运用矩阵光学的传输矩阵理论分析了Z型折叠腔声光调Q系统稳定运行的条件。
The theory of folded cavity is discussed. The stable condition of Z-shaped cavity A-O Q-switched system is analyzed by transmitted matrix.
给出了在考虑相位失配情况下高功率全固态内腔倍频调q激光器的速率方程解的情况。
The solutions of rate equations in a high power all solid-state Q-switched intracavity frequency doubled laser by taking the phase mismatch into account are presented.
针对这一问题,对非稳腔的计算机辅助装调方法进行了研究,并对该过程进行了数值模拟。
The method of computer-aided alignment of unstable resonator is presented and its numerical simulation results are given.
模式理论是理解激光特性,进行激光腔设计和装调的基础,是研究和掌握激光基本技术和应用的基础;
The theory of laser mode is the based to understand the laser characteristics, design and debug the laser cavity, and it is the based to research and master the laser technology and application.
其中并阐述语音的调声法以及梆、簧板腔句式和提出新的分句法。
It also deals with concepl of speech - tone melody and phrase patters of bang - banqiang and huang - banqiang. It puts forward new phrasing method.
陈腔烂调的答案不能满足好奇的听众。
A pat answer is not going to satisfy an inquisitive audience.
运用光学传播矩阵理论,给出了一个机械调q二氧化碳激光器谐振腔的等效简化模型。
By using the theory of optical propagation matrix, a simplified model that is equivalent to a mechanical Q-switched CO_2 laser is carried out.
已知调Q二极管端面泵浦的固体激光器的输出参数而要求所对应的激光器的谐振腔参数和泵浦参数,被称为调Q二极管端面泵浦的固体激光器的反向设计。
Solutions to the resonator parameters and pump parameters of Q-switched end-pumped DPL according to the given laser outputs are termed as backward design of lasers.
已知调Q二极管端面泵浦的固体激光器的输出参数而要求所对应的激光器的谐振腔参数和泵浦参数,被称为调Q二极管端面泵浦的固体激光器的反向设计。
Solutions to the resonator parameters and pump parameters of Q-switched end-pumped DPL according to the given laser outputs are termed as backward design of lasers.
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