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锁模激光器仿真 Figure8 NALM master

于 2021-02-20 发布
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说明:  NALM锁模激光器仿真,非线性环路反射镜锁模获得飞秒激光脉冲。(The simulation of NALM mode-locked laser shows that the femtosecond laser pulse can be obtained by mode-locked non-linear loop mirror.)

文件列表:

Figure8_NALM-master 1, 0 , 2019-03-06
Figure8_NALM-master 1\.DS_Store, 8196 , 2019-03-06
__MACOSX, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\._.DS_Store, 120 , 2019-03-06
Figure8_NALM-master 1\.gitattributes, 378 , 2016-06-08
Figure8_NALM-master 1\.gitignore, 670 , 2016-06-08
Figure8_NALM-master 1\Amplifier, 0 , 2019-03-05
Figure8_NALM-master 1\Amplifier\.DS_Store, 6148 , 2019-03-05
__MACOSX\Figure8_NALM-master 1\Amplifier, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\Amplifier\._.DS_Store, 120 , 2019-03-05
Figure8_NALM-master 1\Amplifier\AmpSimp, 0 , 2019-03-05
Figure8_NALM-master 1\Amplifier\AmpSimp\.DS_Store, 6148 , 2019-03-05
__MACOSX\Figure8_NALM-master 1\Amplifier\AmpSimp, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\Amplifier\AmpSimp\._.DS_Store, 120 , 2019-03-05
Figure8_NALM-master 1\Amplifier\AmpSimp\AmpSimpNoise.m, 1733 , 2016-06-08
Figure8_NALM-master 1\Amplifier\AmpSimp\AmpSimpNonoise.m, 638 , 2016-06-08
Figure8_NALM-master 1\Amplifier\AmpSimp\filter_lorentz_tf.m, 673 , 2016-06-08
Figure8_NALM-master 1\Amplifier\AmpSimp\gain_saturated2.m, 549 , 2016-06-08
Figure8_NALM-master 1\Amplifier\AmpSimp\gain_saturated3.m, 496 , 2016-06-08
Figure8_NALM-master 1\Amplifier\AmpSimp\testcodes, 0 , 2016-06-08
Figure8_NALM-master 1\Amplifier\AmpSimp\testcodes\test_fzero.m, 250 , 2016-06-08
Figure8_NALM-master 1\Amplifier\AmpSimp\testcodes\test_gain_saturated.m, 374 , 2016-06-08
Figure8_NALM-master 1\Amplifier\AmpSimp\testcodes\test_onetrip_gain.m, 1019 , 2016-06-08
Figure8_NALM-master 1\Amplifier\AmpSimp\testcodes\test_Pin_Pout.m, 493 , 2016-06-08
Figure8_NALM-master 1\Amplifier\testcodes, 0 , 2016-06-08
Figure8_NALM-master 1\Amplifier\testcodes\Amplifier_test.m, 3094 , 2016-06-08
Figure8_NALM-master 1\Amplifier\testcodes\plotall.m, 722 , 2016-06-08
Figure8_NALM-master 1\Amplifier\testcodes\plotsimp.m, 864 , 2016-06-08
Figure8_NALM-master 1\Coupler, 0 , 2016-06-08
Figure8_NALM-master 1\Coupler\coupler.m, 355 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master, 0 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\.DS_Store, 6148 , 2019-03-06
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\._.DS_Store, 120 , 2019-03-06
Figure8_NALM-master 1\Figure8_NALM-master\.gitattributes, 378 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\.gitignore, 670 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\Amplifier, 0 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\.DS_Store, 6148 , 2019-03-05
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\Amplifier, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\._.DS_Store, 120 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\AmpSimp, 0 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\AmpSimp\.DS_Store, 6148 , 2019-03-05
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\AmpSimp, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\AmpSimp\._.DS_Store, 120 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\AmpSimp\filter_lorentz_tf.m, 673 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\AmpSimp\gain_saturated2.m, 549 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\testcodes, 0 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\testcodes\.DS_Store, 6148 , 2019-03-05
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\testcodes, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\testcodes\._.DS_Store, 120 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\Amplifier\testcodes\plotsimp.m, 864 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\Coupler, 0 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\Coupler\.DS_Store, 6148 , 2019-03-05
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\Coupler, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\Coupler\._.DS_Store, 120 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\Coupler\coupler.m, 355 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\filter, 0 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\filter\filter_gauss.m, 785 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\GNLSE, 0 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\GNLSE\.DS_Store, 6148 , 2019-03-05
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\GNLSE, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\GNLSE\._.DS_Store, 120 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\GNLSE\Solvers, 0 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\GNLSE\Solvers\.DS_Store, 6148 , 2019-03-05
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\GNLSE\Solvers, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\GNLSE\Solvers\._.DS_Store, 120 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\GNLSE\Solvers\IP_CQEM_FD.m, 4823 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\GNLSE\Solvers\Linearoperator_w.m, 409 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\GNLSE\Solvers\NonLinearoperator_w.m, 952 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\GNLSE\Solvers\Raman_response_w.m, 793 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\main2.m, 6405 , 2019-03-05
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\._main2.m, 120 , 2019-03-05
Figure8_NALM-master 1\Figure8_NALM-master\main3.m, 7562 , 2016-06-08
Figure8_NALM-master 1\Figure8_NALM-master\Utility, 0 , 2019-03-06
Figure8_NALM-master 1\Figure8_NALM-master\Utility\.DS_Store, 6148 , 2019-03-06
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\Utility, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\Figure8_NALM-master\Utility\._.DS_Store, 120 , 2019-03-06
Figure8_NALM-master 1\filter, 0 , 2016-06-08
Figure8_NALM-master 1\filter\filter_gauss.m, 785 , 2016-06-08
Figure8_NALM-master 1\GNLSE, 0 , 2019-03-05
Figure8_NALM-master 1\GNLSE\.DS_Store, 6148 , 2019-03-05
__MACOSX\Figure8_NALM-master 1\GNLSE, 0 , 2019-03-08
__MACOSX\Figure8_NALM-master 1\GNLSE\._.DS_Store, 120 , 2019-03-05
Figure8_NALM-master 1\GNLSE\Solvers, 0 , 2016-06-08
Figure8_NALM-master 1\GNLSE\Solvers\IP_CQEM_FD.m, 4823 , 2016-06-08
Figure8_NALM-master 1\GNLSE\Solvers\IP_CQEM_TD.m, 4260 , 2016-06-08
Figure8_NALM-master 1\GNLSE\Solvers\Linearoperator_w.m, 409 , 2016-06-08
Figure8_NALM-master 1\GNLSE\Solvers\NonLinearoperator_w.m, 952 , 2016-06-08
Figure8_NALM-master 1\GNLSE\Solvers\Raman_response_w.m, 793 , 2016-06-08
Figure8_NALM-master 1\GNLSE\Solvers\SSFM_with_Raman.m, 3797 , 2016-06-08
Figure8_NALM-master 1\GNLSE\Solvers\UPM_SSFM.m, 3127 , 2016-06-08
Figure8_NALM-master 1\GNLSE\Solvers\UPM_SSFM_with_Raman.m, 3842 , 2016-06-08
Figure8_NALM-master 1\main.m, 4622 , 2016-06-08
Figure8_NALM-master 1\main2.m, 6407 , 2016-06-08
Figure8_NALM-master 1\main3.m, 7562 , 2016-06-08
Figure8_NALM-master 1\NonlinearEffects, 0 , 2016-06-08
Figure8_NALM-master 1\NonlinearEffects\main_PCF_DW.m, 3798 , 2016-06-08
Figure8_NALM-master 1\NonlinearEffects\main_SMF_N_order_Soliton.m, 4168 , 2016-06-08
Figure8_NALM-master 1\NonlinearEffects\main_SMF_RIFS.m, 3212 , 2016-06-08

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  • 耦合模栅仿真
    可以仿真倾斜光纤光栅的透射光谱和反射光谱(The transmission spectrum and reflection spectrum of tilted fiber grating can be simulated.)
    2018-06-19 08:47:57下载
    积分:1
  • zernike
    利用matlab实现光学系统像差仿真,泽尼克像差代码实现(Aberration simulation of optical system using MATLAB and Zernike aberration code implementation)
    2021-04-21 10:08:49下载
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  • 涡旋产生
    说明:  该程序能够产生涡旋光束,并提取出相位,亲们试试(The program can generate vortex beam, and extract the phase, parents try)
    2021-02-05 23:37:52下载
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    2019-05-04 15:42:31下载
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  • DFB_model
    利用numpy库实现激光器领域的时域行波模型。该模型输出激光器信号,频谱等。(The time-domain traveling wave model in laser field is realized by using numpy library. The model outputs laser signals, spectrum and so on.)
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    2019-07-07 11:55:38下载
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    在光纤环形腔中经过级联四波混频产生光频率梳,梳齿频率间隔可调,光纤环形腔中不同模块色散,非线性系数可调。(Optical frequency comb are generated in the fiber cavity by the process of cascaded four wave mixing.)
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    基于phong光照模型的简单光反射模型,用于红外物理中(phong illumination model)
    2017-12-14 11:16:41下载
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  • SIFT+RANSAC
    说明:  基于sift与ransac法的MATLAB程序,有需要的请下载(Based on sift and ransac method MATLAB procedures, there is a need to download)
    2021-04-20 16:58:50下载
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    MZDDE是用Matlab脚本编写的利用DDE技术与ZEMAX光学设计软件进行数据交互的工具集,可实现ZEMAX扩展功能,提高光学设计效率(MZDDE is a tool set written by Matlab script that uses DDE technology to interact with ZEMAX optical design software. It can realize ZEMAX extended function and improve optical design efficiency.)
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