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2008-04-07 14:26 |
《FRED 快速学习手册》-书籍目录
《FRED 快速学习手册》-书籍目录 B*�&HQW *u
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1 马克苏托夫望远镜系统设计(Maksutov Telescope Example) 4o��,G[Cf_
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本章节将介绍FRED软件和熟悉操作接口 $b`�~K�M�O
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l The goal of this example is to make the user familiar with FRED’s interface Bhg�,P.7�
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1.1 使用透镜和面镜Using lenses and mirrors u}eLf'^ZCe
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1.2 定义使用者的对象Defining custom elements -�W�.b�Or�
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1.3 在不同的坐标系定义组件的位置Specifying the location of elements in different coordinate systems e!o�L��!Zg
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1.4 简单光源的设定Setting up a simple source �,l�b�� >
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1.5 光线追迹Raytracing |{9&!=/�qf
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1.6 光斑图的模拟结果Calculating a spot diagram Zr|z!S?aSC
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2 反射罩与积分柱应用(Reflector and Integrator Example) h%�8�C_m�A
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本章节将指导如何操作FRED及利用线段建立光学组件 d]+2rt}]hL
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l The goal of this example is to make the user familiar with FRED’s interface as well as introduce curve-based geometry @YHt[>*��S
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2.1 定义自定对象Defining custom elements {4YD�_$�4W
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2.2 建立线段,并利用此线段制作一个3D的光学积分柱Defining curves that get extruded to create a 3D structure 80�"oT'ZFh
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2.3 建立光源Setting up a volume emitter source 4M����PR��
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2.4 修改追迹时光线显示颜色Changing ray color during raytrace W�p(R�w4j�
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2.5 建立多个分析面Multiple analysis surfaces 9O|�k�|FD�
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2.6 光照度及光强度分析Calculating irradiance and intensity distributions 1{�.5X8y1x
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2.7 光线路径分析Ray path calculations $/�"Q��YSF
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3 干涉模拟(Interferometer Example) �&x��)n�K�
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本章节课程将会指导使用者如何利用FRED进行同调光源设定及观察光干涉效应。 Nn-Et�M�0w
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l The goal of this example is to introduce coherent calculations in FRED 9{Ca�j�tN�
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3.1 定义棱镜Defining prisms Sv���t%*�j
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3.2 定义镀膜特性Defining coatings
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3.3 定义组合件Defining subassemblies 7}puj%JS
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3.4 使用off-the-shelf 对象Using “off-the-shelf” components ~mC>G 4y$a
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3.5 设定同调光源Setting up a coherent source ���[�i8Ju�
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3.6 照度图Calculating irradiance distributions 1^tM%�2rP'
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3.7 强度图显示设定Irradiance display options d���"OYq�
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3.8 在三维实体显示窗口贴上照度图Attaching irradiance calculations to 3d rendering view �*�r|Zbxf(
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3.9 数据汇出到档案Writing data to output file �mNKca�M?h
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4 孔径及削切的应用 ��c�p2a� @
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本章节将会只由简入深让使用者学会操作,Aperture的功能使用 �WXd#`�f�%
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4.1 孔径的数值修改Trimming volumes as apertures ��RmJ�|g<�
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4.2 表面利用削切功能变化Trimming surfaces 7ea%�mg�\�
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4.3 “And”及 “OR”等布尔代数指令建立复合式的孔径“And”ing and “OR”ing operations to make complex apertures �&"DD&87N%
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4.4 线段与表面的削切功能的结合应用Trimming (collection) curves @./�@"mR�<
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4.5 使用线段进行削切去建立三维的光学结构Extruding trimming curve to create 3D structure c3(�0�BS�v
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5 进阶光学结构设计实例(Custom Elements Example) =yZ6��$ hK
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本章节将指导大家自定对象的各种进阶功能的使用与操作 &Z%'x�AOGR
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l The goal of this example is to demonstrate the use of custom elements z`s��W5K(A
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5.1 将透镜模型的表面修改,成为变化性更高的表现方式 Replacing the surface of a lens with a more complex surface type pV*�d"~T��
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5.2 将透镜对象形式转化为自定对象形式Converting a lens element into a custom element �S�e�|h]+G
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5.3 如何将透镜转化为曼金镜Converting a lens into a Mangin mirror _ygdv\^Tet
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5.4 定义多层镀膜教学 Defining multilayer s�8�SCEpz�
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5.5 理想化表面镀膜及多层镀膜的差异Difference between idealized coating and thin film coating ]F �#0��to
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5.6 利用二个方立方体透镜建立分光棱镜实例Using a cube beamsplitter as a generic block of glass AmK� g;9LS
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5.7 在二个立方体间建立胶合参数教学Gluing two blocks of glass together f!G�%$��?]
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5.8 受抑内全反射Frustrated total internal reflection (FTIR) -BH T'zq1S
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6 准直雷射平台设计(Laser Diode Collimator Example) Q�B*n
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本课程将指导如何建立准直雷射平台 }��[�OEtd{
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l The goal of this example is to demonstrate complex setup techniques 06I(01M1��
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6.1 由镜头设计软件的档案汇入镜头档案数据Importing lenses from lens design programs j�V' tcFr4
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6.2 建立一个具有发散角度的雷射光源Using astigmatic laser diode models G{0�f*
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6.3 复制组合件Copying subassemblies `[~LMV&2�U
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6.4 建立偏极化分光镜Defining a polarization beamsplitter H%;pPkI�i�
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6.5 定义光学石英材质参数Defining an optically active material 9`!#5i)VU8
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6.6 建立半波片Constructing a halfwave plate 2Z��Ky7p0/
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6.7 计算光学场Calculating the optical field �p�7[&H�/
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7 图片离散取点功能教学(Digitizing) ~e=KB�YDBu
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本课程的将介绍FRED的各个功能如何应用digitizing 操作及应用 RY*yj&?w�[
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l The goal of this example is to demonstrate digitizing data plots and drawings in FRED hroRDD����
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7.1 利用图片离散取点来建立穿透/反射的 coating 参数Digitizing coating transmission/reflection plots ��\�oO�&c�
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7.2 利用图片离散取点快速建立三维模型Digitizing drawings 'h� 7n�}��
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7.3 利用图片离散取点快速建立多波长光源Digitizing spectral weighting for a source n;k�
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7.4 利用图片离散取点建立随波长变化对应不同折射率的材质特性参数Digitizing refractive indices �+'UxO'v3]
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8 3件组透镜设计案例(Triplet Example) BA_l*h%=Cc
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本课程将利用三件式透镜组为主题,为大家介绍FRED如何模拟现实状况下的各种分析方式 8\[q�R_LV�
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8.1 如何由透镜设计软件汇入透镜模块Importing lenses from lens design programs c�X5t�x��]
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8.2 在FRED中建立多波长光源Setting multiple polychromatic sources e�_Q(�l'f�
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8.3 如何建立序列式描光路径进行近轴分析Using sequential paths in paraxial analyses Og�kb��N�`
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8.4 同时在多个表面加入材质参数或表面膜层参数Defining multilayer coatings �T7Y�g^ -"
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8.5 鬼影分析计算Performing ghost calculations &X���S�e&1
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8.6 分离鬼影光线做独立光线追迹Isolating specific ghost using ray paths M:w]g`�LKl
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8.7 鬼影光照度分析Ghost irradiance analyses U�FUm-�~x`
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8.8 使用序列式描光来减少光线追迹时间Using sequential raytracing to speed up calculation O9�F#g�O|!
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9 扫瞄器范例(Scanner Example) q��FjnuQ,w
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本课程将利用扫瞄器为主题,为大家介绍FRED如何模拟现实状况下的各种分析方式 �dH0wVI�<z
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9.1 由其它的FRED档案,复制对象来使用Copying from one FRED document to another 9wv 7�HD|�
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9.2 发光二极管模块的建立Working with an LED model XwdehyPhT2
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9.3 菲涅尔透镜建立流程Creating a Fresnel lens z#sSL�E.$Z
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9.4 图片离散取点方式快速建立LED灯罩Digitizing drawings/blueprints l
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9.5 表面散射参数设定Surface scatter w��~Vqd�B�
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9.6 计算镜头上的感光组件的对数化通量显示Calculating flux levels at CCD y�?{YQ)�fj
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