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Analyses of All-Optical Ultra-Fast Gate Switches Using Cascaded Second-Order Nonlinear Effect in Periodically Poled Lithium Niobate Waveguides: Methods of Performance Enhancement and Effects of Device Fabrication Errors

机译：周期性极化铌酸锂波导中使用级联二阶非线性效应的全光超快栅极开关分析：性能增强方法和器件制造误差的影响

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We analyze the switching performance of all-optical ultra-fast gate switches employing the cascade of second harmonic generation and difference frequency mixing in periodically poled lithium niobate waveguides with consideration for crosstalk effect and device fabrication errors. An appropriate time offset between the gate and signal pulses can improve the switching efficiency, and the use of the nonlinear optical tensor element d₃₁ is favorable for efficient ultra-fast operation when compared to the use of the commonly used maximum tensor element d₃₃. On the other hand, while the switching performance is almost independent of the random duty-cycle error, small amount of the random period error causes significant decrease in the switching efficiency.

机译：我们在考虑串扰效应和器件制造误差的情况下，分析了在周期性极化的铌酸锂波导中采用二次谐波产生和差分频率混合的级联的全光超快栅极开关的开关性能。选通脉冲和信号脉冲之间的适当时间偏移可以提高开关效率，并且与通常的使用相比，非线性光学张量元件d _{31 的使用有利于高效的超快操作。使用最大张量元素d _{33 。另一方面，虽然开关性能几乎与随机占空比误差无关，但是少量的随机周期误差会引起开关效率的显着降低。}}

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《Transparent Optical Networks, 2007. ICTON '07》|2007年|p.313-316|共4页
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Fukuchi Y.; Tanaka T.; Watanabe K.; Akaike M.;
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中图分类 TB969;
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harmonic generation; high-speed optical techniques; optical switches; optical waveguides; tensors; all-optical ultrafast gate switches; cascaded second-order nonlinear effect; device fabrication errors; difference frequency mixing; nonlinear optical tensor element; performance enhancement; poled lithium niobate waveguides; random duty-cycle error; switching harmonic generation;

机译：谐波产生;高速光学技术;光开关;光波导;张量;全光超快门开关;级联二阶非线性效应;器件制造误差;差频混合;非线性光张量元件;性能增强;极化铌酸锂波导;随机占空比误差;开关谐波产生;

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专利

1. All-optical switching based on cascading of second-order nonlinearities in a periodically poled titanium-diffused lithium niobate waveguide [J] . Kanbara H., Itoh H. IEEE Photonics Technology Letters . 1999,第3期

机译：周期性极化钛扩散铌酸锂波导中基于二阶非线性级联的全光开关
2. All-Optical Ultrawideband Pulse Generation Using Cascaded Periodically Poled Lithium Niobate Waveguides [J] . Jian WangJunqiang SunXinliang ZhangDexiu Huang Quantum Electronics, IEEE Journal of . 2009,第3期

机译：级联周期极化铌酸锂波导的全光超宽带脉冲生成
3. Observation of all-optical wavelength conversion based on cascaded effect in periodically poled lithium niobate waveguide [J] . Zeng XL., Chen XF., Chen YP., Optics & Laser Technology . 2003,第3期

机译：周期性极化铌酸锂波导中基于级联效应的全光波长转换的观察
4. Analyses of All-Optical Ultra-Fast Gate Switches Using Cascaded Second-Order Nonlinear Effect in Periodically Poled Lithium Niobate Waveguides: Methods of Performance Enhancement and Effects of Device Fabrication Errors [C] . Fukuchi, Yutaka, Tanaka, . 2007

机译：周期性极化铌酸锂波导中使用级联二阶非线性效应的全光超快栅极开关分析：性能增强方法和器件制造误差的影响
5. All-optical switching and squeezed light generation in periodically poled lithium niobate waveguides. [D] . Kanter, Gregory S. 2000

机译：周期性极化铌酸锂波导中的全光切换和压缩光产生。
6. All-optical signal processing using cascaded quadratic interactions in periodically poled lithium niobate waveguides [O] . Liu Sheng 2012

机译：在周期极化的铌酸锂波导中使用级联二次相互作用的全光信号处理

Analyses of All-Optical Ultra-Fast Gate Switches Using Cascaded Second-Order Nonlinear Effect in Periodically Poled Lithium Niobate Waveguides: Methods of Performance Enhancement and Effects of Device Fabrication Errors

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