最终实现了微波源高压脉冲幅度稳定精度0.15%,满足了远红外自由电子激光实验需求。
As a result, it is successful in controlling the amplitude regulation accuracy of the microwave sources high voltage to 0.15%, which satisfies the requirement of far infrared FEL experiment.
在高效率和低电流小信号范围内,理论地分析了用反向渐变波导提高远红外波导自由电子激光器(FIR - FEL)效率的机理。
In the high efficiency and small signal region, we investigate theoretically the efficiency enhancement mechanism of far infrared free electron laser (FIR-FEL) with a reverse tapering waveguide.
在中远红外波段,利用北京自由电子激光对其响应特性进行了实验研究。
The research on its middle to far infrared response characteristics is conducted by utilizing the Beijing Free Electronic Laser.
在中远红外波段,利用北京自由电子激光对其响应特性进行了实验研究。
The research on its middle to far infrared response characteristics is conducted by utilizing the Beijing Free Electronic Laser.
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