The article discusses the differences in physical mechanism of mode locking by laser pulse injection between the dispersion region at positive group velocity and that at negative group velocity.
本文阐述工作于正、负群速色散区中的光脉冲注入锁模的物理机制的区别。
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.
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 effects of phase bias and group velocity dispersion on mode locking mechanism are analyzed. The operating conditions for stable short pulse generation are obtained.
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 dye laser pulse has been synchronized with the iodine laser pulse by a combination of active-passive mode-locking.
它采用主-被动锁模相结合的染料激光脉冲与碘激光脉冲同步工作。
To achieve a steady harmonic mode-locked pulse (HMLP), the theory of rational harmonic mode-locking and the transmission characteristics of a nonlinear amplifying loop mirror were analyzed.
为了获得稳定的谐波锁模脉冲,分析了有理数谐波锁模的理论和非线性放大环镜的传输特性。
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.
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。
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