1) Gaussian monocycle pulse
高斯型单周期脉冲
2) single cycle pulse
单周期脉冲
1.
Relationship between carrier phase and energy of single cycle pulses with different profiles;
几种单周期脉冲能量与位相的关系
3) Gaussian monocycle
高斯单脉冲
1.
This paper also analyzes the influence of center frequency of Gaussian monocycle on the obtained pow.
同时还分析了不同的高斯单脉冲中心频率对于最终所得功率利用率的影响,结果表明通过合理地选择参数可以进一步提高所得脉冲的功率利用率。
4) Gaussian-shaped pulse
高斯型脉冲
1.
Influence of the fifth-order nonlinearity on the propagation properties of Gaussian-shaped pulses in optical fibers;
五阶非线性对光纤中高斯型脉冲传输特性的影响
2.
Influence of the third-order dispersion on the propagation properties of Gaussian-shaped pulses in optical fibers;
三阶色散对光纤中高斯型脉冲传输特性的影响
3.
The influence of the small dielectric loss on the propagation properties of optical gaussian-shaped pulses in optical fibers is discussed.
本文从MNLS方程出发,采用变分法,导出了在小损耗情况下光学高斯型脉冲参数随传输距离的演化方程组及其解析解,讨论了小损耗对光纤中光学高斯型脉冲传输特性的影响。
5) Gaussian-shaped pulses
高斯型脉冲
1.
Then,discussed the propagation properties of the Gaussian-shaped pulses in the couple-interaction fiber and analysed the influence of the couple-interaction on the parameters of the Gaussian-shaped pulses.
采用变分法,从含修正项的非线性薛定谔方程出发,导出了耦合光纤中光学高斯型脉冲参数随传输距离的演化方程组,讨论了耦合相互作用对光纤中高斯型脉冲传输特性的影响。
2.
The influence of perturbation on the propagation properties of optical Gaussian-shaped pulses is investigated in optical fibers by means of variational method, and the evolution equations for the parameters of the optical Gaussian-shaped pulse are derived.
应用变分法,研究了微扰对光学高斯型脉冲在光纤中非线性传输特性的影响,导出了光学高斯型脉冲参数演化的动力学方程。
6) monocycle short pulse
单周期窄脉冲
1.
A method of generating ultra-wideband(UWB) monocycle short pulse based on SRD and Schottky diode was proposed.
提出了一种基于SRD、肖特基二极管和微带短路线产生超宽带(UWB)、单周期窄脉冲的方法,对窄脉冲产生电路的工作原理进行了理论分析和软件仿真,设计并实现了新型超宽带雷达发射机,经测试单周期窄脉冲的脉宽为400 ps,峰峰值为15 V,测试结果与分析仿真结果基本吻合,从而验证了SRD模型和对窄脉冲产生电路分析的正确性。
补充资料:高斯型谱带
分子式:
CAS号:
性质:用高斯函数描写的一类带型,可写成:F(ν-ν0)=(a/)exp[-a2(v-v0)2]式中a-1与带宽成比例,v0为谱带峰高极大处的频率
CAS号:
性质:用高斯函数描写的一类带型,可写成:F(ν-ν0)=(a/)exp[-a2(v-v0)2]式中a-1与带宽成比例,v0为谱带峰高极大处的频率
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条