光学物理学家操纵光来产生超短激光脉冲,然后研究这些脉冲争取进入光的基本性质的认识。
Optical physicists manipulate light to produce ultrashort laser pulses and then study these pulses to gain insight into the fundamental properties of light.
超短光脉冲在遥测、探索微观世界的规律以及产生高温等离子体等方面有极广泛的用途。
Ultrashort optical pulse finds wide use in telemetry, microcosmic exploration and generation of high temperature plasma, etc.
有理数谐波锁模技术是产生高速超短脉冲的重要技术之一,其光时分复用通信技术等领域中有重要的应用价值。
The rational harmonic mode-locking has become a research subject of intense interest due to its application on the generation of ultra- high repetition frequency optical pulse train.
分析了相位偏置和光纤的色散对锁模机制的影响,获得了产生稳定超短光脉冲的条件。
The effects of phase bias and group velocity dispersion on mode locking mechanism are analyzed. The operating conditions for stable short pulse generation are obtained.
该系统产生的超短紫外光脉冲对X光条纹相机的动态参数及带时标的条纹相机的研究具有重要意义。
This fourth harmonic system offers wide applications to the diagnostics of the soft X ray ps streak camera and framing camera, nonlinear optics and other ultrafast phenomena study.
提出一种在单模光纤正常色散区由连续波产生超短光脉冲串的新方法。
A new method for ultrashort optical pulse train generation from a cw signal in the normal dispersion regime of optical fibers is suggested.
超短脉冲光源凭借着其特有的性质在众多领域都得到了广泛的应用,而锁模技术是产生超短光脉冲的常用方法。
Due to its unique features, ultra-short pulse source have been widely used in many fields. To produce the ultra-short optical pulses, people often utilize the mode-locking technology.
超短脉冲光源凭借着其特有的性质在众多领域都得到了广泛的应用,而锁模技术是产生超短光脉冲的常用方法。
Due to its unique features, ultra-short pulse source have been widely used in many fields. To produce the ultra-short optical pulses, people often utilize the mode-locking technology.
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