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控制光脉冲
相关语句
  control pulse
     Influences of input optical pulses including the control pulse and probe pulse on the switching window of ultrafast nonlinear interferometer (UNI) are studied by numerical simulation and experiment.
     就超快非线性干涉仪(UNI)的输入光特性对其开关窗口的影响进行了数值模拟和实验研究,输入光包括控制光脉冲和探测光脉冲。
短句来源
     Control pulse is coupled into this pulse shaper by wavelength division multiplexer. Nonlinear phase shift of signal laser is induced by control pulse because of cross phase modulation.
     该全光脉冲整形器利用波分复用器将控制光脉冲引入光纤环形镜中,控制光脉冲由于交叉相位调制在信号光上产生了非线性附加相移。
短句来源
     By changing the powers of control pulse and the continuous light, the results of simulation are verified.
     通过改变控制光脉冲和连续光功率来验证它们对超快非线性干涉仪开关窗口的影响。
短句来源
     If the power of control pulse continues to increase, the top of the switching window inclines and the shape of the switching window gets worse.
     如果继续增大控制光脉冲功率,会使窗口的顶部倾斜,窗口形状恶化;
短句来源
     The dynamic gain responses of the semiconductor optical amplifier (SOA) in a terahertz optical asymmetric demultiplexer (TOAD) to intense control pulses with different input energies and pulse widths are investigated. The influences on the switching characteristics of TOAD for control pulse energies, widths, loop′s time asymmetry, and time delays between the signal and control pulses are studied and optimized in detail. The theoretical analysis is compared with the experimental result.
     讨论了太赫兹光非对称解复用器 (TOAD)中半导体光放大器 (SOA)对具有不同能量和宽度的控制脉冲的动态增益响应 ,研究了控制脉冲能量、宽度、环时间非对称性、信号光脉冲相对于控制光脉冲的时延等因素对TOAD开关特性的影响 ,作了优化分析 ,并与实验结果进行了比较
短句来源
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  “控制光脉冲”译为未确定词的双语例句
     The power and width of input optical pulses are adjusted in the process of numerical simulation.
     在数值模拟中,调节控制光脉冲和探测光脉冲的功率及脉宽,功率越高和脉宽越窄,窗口的形状越好。
短句来源
     Brings forward a technical scheme to suppress the noise in DLOB by adding base onto control light pulse.
     提出了将控制光脉冲加上直流基座有效地抑制DLOB中噪声的技术方案。
短句来源
     The pulse is amplified efficiently in safety by controlling the chirp characteristic of the pulse (stretched-amplified-compressed).
     该基本技术是通过控制光脉冲的啁啾特性(展宽-放大-压缩)来达到安全有效放大的目的。
短句来源
  相似匹配句对
     Pulse Electrom agnetic Light Valve Based on Adaptive Fuzzy Control
     基于自适应模糊控制脉冲电磁
短句来源
     ULTRASHORT LIGHT PULSES
     超短脉冲
短句来源
     FLASH X-RAY CINERADIOGRAPHY
     连续脉冲X摄影
短句来源
     VIBRATION PULSE CONTROL METHOD
     振动脉冲控制
短句来源
     Application of Fuzzy Control in Pulse Electrochemical Finishing
     模糊控制脉冲电化学整加工中的应用
短句来源
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  control pulse
At the optimal width of the control pulse, the diffraction efficiency increases by two orders of magnitude.
      
A novel configuration of two Brillouin amplifiers, which contains a main amplifier combined with a reshaping amplifier, is suggested to control pulse shape of Stokes pulses with steep leading edge.
      
This state is then electronically excited by a time-delayed infrared control pulse of variable wavelength.
      
Locking of the flexion of the knee-joint in this knee prosthesis can be accomplished by means of a mechanical clutch released by a control pulse which, in turn, is derived from the myolectric activity of the patient's stump.
      
This card provides the control pulse to the sample heater as well as trigger pulse to the nano-voltmeter which monitors the sensor voltage (Ge sensor, Lake Shore Inc., USA).
      
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Simultaneous conversion for the continue waveform to return to zero and wavelength

利用非线性光学环路镜成功地实现了连续光到超短光脉冲和波长的同时变换.最大波长变换间距大于35nm.实验系统中采用增益开关分布反馈半导体激光器(GSDFB-LD)产生的超短光脉冲作为控制光,采用波长可调半导体激光器作为信号光.在变换过程中在1.55μm附近首次观测到了波长的反相变换.当信号光和控制光脉冲走离大于40.7ps时,变换信号脉冲发生畸变,变换脉冲展宽

The dynamic gain responses of the semiconductor optical amplifier (SOA) in a terahertz optical asymmetric demultiplexer (TOAD) to intense control pulses with different input energies and pulse widths are investigated. The influences on the switching characteristics of TOAD for control pulse energies, widths, loop′s time asymmetry, and time delays between the signal and control pulses are studied and optimized in detail. The theoretical analysis is compared with the experimental result.

讨论了太赫兹光非对称解复用器 (TOAD)中半导体光放大器 (SOA)对具有不同能量和宽度的控制脉冲的动态增益响应 ,研究了控制脉冲能量、宽度、环时间非对称性、信号光脉冲相对于控制光脉冲的时延等因素对TOAD开关特性的影响 ,作了优化分析 ,并与实验结果进行了比较

Influences of input optical pulses including the control pulse and probe pulse on the switching window of ultrafast nonlinear interferometer (UNI) are studied by numerical simulation and experiment. The power and width of input optical pulses are adjusted in the process of numerical simulation. In the beginning, the higher the powers of control pulse and probe pulse and the narrower the widths of them, the better the shape of the switching window. There are optimal values of the power of them for the best shape...

Influences of input optical pulses including the control pulse and probe pulse on the switching window of ultrafast nonlinear interferometer (UNI) are studied by numerical simulation and experiment. The power and width of input optical pulses are adjusted in the process of numerical simulation. In the beginning, the higher the powers of control pulse and probe pulse and the narrower the widths of them, the better the shape of the switching window. There are optimal values of the power of them for the best shape of the switching window. If the power of control pulse continues to increase, the top of the switching window inclines and the shape of the switching window gets worse. Similarly, if the power of probe pulse continues to increase, the extinction ratio of switching window would decrease. In the experiment of 10 Gb/s UNI, the continuous light is used to replace the probe pulse in order to observe the switching window. By changing the powers of control pulse and the continuous light, the results of simulation are verified. The experiment demonstrates that the high power and the narrow width of control pulse and the optimal power of continuous light should be selected. The result of experiment is quite similar to the simulation.

就超快非线性干涉仪(UNI)的输入光特性对其开关窗口的影响进行了数值模拟和实验研究,输入光包括控制光脉冲和探测光脉冲。在数值模拟中,调节控制光脉冲和探测光脉冲的功率及脉宽,功率越高和脉宽越窄,窗口的形状越好。在调节过程中发现控制光脉冲和探测光脉冲都存在一个最佳的功率点使窗口的形状达到最优。如果继续增大控制光脉冲功率,会使窗口的顶部倾斜,窗口形状恶化;而继续增大探测光脉冲功率,窗口的消光比开始下降。在数值模拟的基础上进行了10 Gb/s的超快非线性干涉仪全光开关实验,在实验中用连续光代替探测光脉冲以观察窗口形状。通过改变控制光脉冲和连续光功率来验证它们对超快非线性干涉仪开关窗口的影响。实验表明,应选用短而强的控制光脉冲和最优功率点的连续光,这与模拟结果吻合。

 
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