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RE_f_calculate
- 矩形腔体谐振频率计算,含傅氏变换 是初学FDTD的好参考文献!
RE_f_calculate
- 矩形腔体谐振频率计算,含傅氏变换 是初学FDTD的好参考文献!-Rectangular cavity resonant frequency of the calculation, including Fourier transform is a good beginner FDTD References!
er_5
- 用FDTD计算一介质填充的矩形腔的谐振频率。-It calculates the oscillating frequency of a rectangular cavity with loaded by dielectric.
photo
- 描述了单光子与腔内谐振子相互作用后,其输出频谱的一些特性,谐振子的量子状态-Describes the interaction of a single photon of the cavity, some of the characteristics of the output spectrum
License-Plate-Recognition
- 基于MATLAB软件设计的车牌识别和激光器谐振腔分析-Design of License Plate Recognition Based on MATLAB and Laser Resonator
tiaoxing
- 通过FOX-LI迭代法模拟激光条形谐振腔内自再现模的形成过程及达到稳定时的光场强度分布和相位分布。- U901A u8FC7FOX-LI u8FED u4EE3 u6CD2 u6A1 u62DF u6FC0 u5149 u673 u5F62 u8C10 u632F u8154 u5185 u81EA u518D u73B0 u6A21 u7684 u5F62 u6210 u8FC7 u7A
慢光光纤陀螺关键技术研究
- 文章基于慢光技术的耦合谐振腔结构的光纤陀螺原理、陀螺随机噪声和 误差的分析与建模、慢光光纤陀螺信号时间差检测等问题展开了深入的研究和 探索。(Based on slow light technology, the principle of fiber optic gyroscope with coupled resonator structure, gyro random noise and Error analysis and
laser mode
- 光学谐振腔模式的远场的计算及仿真计算,可计算腔损耗(The far field calculation and simulation calculation of optical resonator mode can calculate cavity loss)
F-P
- SLM仿真,对激光器的谐振腔模型的计算,适用于传统的谐振式激光谐振器。(SLM simulation.The SLM of the F-P resonant cavity of the laser is calculated, which is suitable for the conventional resonator type lasers.)
taibaoshi
- 主要针对六镜谐振腔激光器的模拟,包括:l1不同倍频晶体处腰斑;倍频晶体处腰斑及L1不同钛宝石腰斑比较。(The simulation of six mirror resonator laser is mainly focused on: waist spots at different frequency doubling crystals of L1; comparison of waist spots at different fr
mathmatic
- 光学谐振腔计算,锁模调制,腔内功率密度计算,一阶导数求解(Calculation of optical resonator)
laserunstable
- 计算激光谐振腔内的模式以及非稳腔的相关仿真(Calculation of the mode of laser resonant cavity and the correlation simulation of unstable cavity)
飞秒及皮秒激光 高斯脉冲在光纤中的色散
- 超短脉冲是谐振腔中增益与损耗达到平衡、色散与非线性达到平衡时所产生的。啁啾型脉冲在光纤中传播,因色散作用及各种非线性作用谱线被展宽。(Ultra-short pulses are generated when the gain and loss of the cavity are balanced, and the dispersion and nonlinearity are balanced. Chirped pulses prop