采用数值计算方法模拟了同样增益长度的单、双增益模块系统的热特性和输出激光的远场光斑分布,并进行了对比分析。
The heat character and far-field facula of liquid laser with single gain host and double gain host at the same gain length were simulated, and then compared.
研究结果显示了增益调度在热工控制问题上有一定的应用前景。
The study of this dissertation illusrtated the promising future of gain scheduled in thermal object control.
与传统的气体和液体拉曼介质相比,固体拉曼介质具有粒子浓度大、体积小、拉曼增益系数大及热导性能好等优点。
As compared with the traditional gas and liquid Raman media, the Raman crystals offer high gain, high molecule density, good thermal and mechanical properties.
实验采用凸平直线非稳腔,将凸面镜和增益介质热透镜效应等效为望远镜系统进行分析。
In the experiment we used convex-plane unstable resonator, and analysis the convex mirrors and gain medium thermal lens as a telescope system.
论文结合增益调度控制方法、状态反馈控制理论和PID控制器设计方法,得到一些适用于非线性热工对象全工况运行的控制方案。
In this dissertation, some control schemes based on gain scheduled and state feedback control theory and PID controller were proposed to control the nonlinear parameter-varying thermal objects.
论文结合增益调度控制方法、状态反馈控制理论和PID控制器设计方法,得到一些适用于非线性热工对象全工况运行的控制方案。
In this dissertation, some control schemes based on gain scheduled and state feedback control theory and PID controller were proposed to control the nonlinear parameter-varying thermal objects.
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