高等光學(xué)仿真：光波導(dǎo)，激光（MATLAB版 第2版）

目錄
第1 章光的電磁理論基礎(chǔ)                                                    
1.1 麥克斯韋電磁理論                                                      
1.1.1 麥克斯韋方程組                                                     
1.1.2 邊界條件                                                                                                                  
1.1.3 時(shí)諧電磁場(chǎng)                
1.1.4 電磁場(chǎng)的波動(dòng)方程
1.2 平面波和疊加原理                                                     
1.2.1 平面波            
1.2.2 疊加原理                                                                               
1.3 微分算子                                                                                      
1.3.1 時(shí)間微分算子 
1.3.2 空間微分算子                                                            
1.4 坡印廷矢量  
1.4.1 真空中的坡印廷矢量                                                 
1.4.2 非傳導(dǎo)各向同性介質(zhì)中的坡印廷矢量
1.5 平面光波在電介質(zhì)表面的反射和折射                                                                                      
1.5.1 電矢量平行入射面  
1.5.2 電矢量垂直入射面
1.5.3 菲涅耳公式                                                                                   
1.5.4 反射率和透射率                                                                                    
1.6 光波由光疏介質(zhì)進(jìn)入光密介質(zhì) 
1.6.1 反射率、透射率變化                                                       
1.6.2 布魯斯特角                                                                                     
1.6.3 相位變化                                                                                    
1.7 光波由光密介質(zhì)進(jìn)入光疏介質(zhì)
1.7.1 反射率、透射率變化                                                      
1.7.2 全反射               
1.7.3 相位變化                                                                                     
1.7.4 倏逝波              
1.8 MATLAB 預(yù)備技能與技巧                                                                                      
1.8.1 向量及其操作 
1.8.2 MATLAB 基本作圖                                                      
1.9 習(xí)題                                                                                      
第2 章理想平板介質(zhì)光波導(dǎo)中的光傳播特性及仿真 
2.1 平板介質(zhì)光波導(dǎo)一般概念              
2.2 平板光波導(dǎo)分析的射線法              
2.2.1 振幅反射率和附加相移              
2.2.2 特征方程                                                                                      
2.3 平板光波導(dǎo)中的TE模 
2.3.1 TE模的電磁理論求解  
2.3.2 TE模的特征方程和截止條件 
2.3.3 TE模特征方程的MATLAB圖解 
2.3.4 TE模特征方程的MATLAB數(shù)值求解                                                                                     
2.3.5 非對(duì)稱(chēng)平板光波導(dǎo)和對(duì)稱(chēng)平板光波導(dǎo)  
2.3.6 TE模的截止波長(zhǎng)                                                                                     
2.3.7 TE模場(chǎng)分布的MATLAB圖示 
2.3.8 TE模的模式數(shù)  
2.3.9 TE模的傳播功率                                                                                   
2.3.10 模式特性                                                                                      
2.3.11 歸一化傳播常數(shù)                                                                                    
2.4 平板光波導(dǎo)中的TM模  
2.4.1 TM模的電磁理論求解 
2.4.2 TM模的特征方程                                                                                     
2.4.3 TM模的截止波長(zhǎng)                                                                                     
2.4.4 TM模的傳播功率                                                                                      
2.5 MATLAB預(yù)備技能與技巧                
2.5.1 MATLAB的腳本和函數(shù)                
2.5.2 函數(shù)的函數(shù)                                                                                     
2.5.3 方程求根的MATLAB數(shù)值解法                                                   
2.5.4 方程求根的MATLAB符號(hào)解法                                                     
2.6 習(xí)題                                                                                     
第3 章光纖中的光傳播特性及仿真 
3.1 光纖的誕生和光纖通信                                                     
3.2 光纖的一般概念                                                                                    
3.2.1 光纖和光纜                                                                                     
3.2.2 光纖的種類(lèi)                                                                                      
3.2.3 光纖的制造                                                                                      
3.2.4 光纖的損耗                                                                                     
3.2.5 光纖傳輸?shù)膬?yōu)點(diǎn)                                                                                     
3.3 光纖的參數(shù)定義                                                                                      
3.3.1 基本特性參數(shù) 
3.3.2 歸一化頻率                                                                                     
3.3.3 歸一化橫向相位參數(shù)和歸一化橫向衰減參數(shù)                                                      
3.3.4 有效折射率                                                                                    
3.3.5 歸一化相位常數(shù)                                                                                     
3.3.6 截止波長(zhǎng)                                                                                    
3.4 光纖波導(dǎo)的電磁理論解法              
3.4.1 柱坐標(biāo)系亥姆霍茲方程和Bessel函數(shù)                                                                                      
3.4.2 光纖中的電磁場(chǎng)分量矢量解
3.4.3 矢量解的特征方程 
3.4.4 導(dǎo)波模的分類(lèi)和特征方程 
3.5 光纖中的線性偏振模式LPlm 
3.5.1 LP模的簡(jiǎn)并及其特征方程
3.5.2 LP模的截止條件                                                                                     
3.5.3 LP模歸一化截止頻率的數(shù)值求解                                                                                 
3.6 階躍型折射率光纖中的模式容量和光功率分布                
3.6.1 階躍型折射率光纖中LP模的模式容量  
3.6.2 階躍型折射率光纖中LP模的光功率                                                                                     
3.7 單模光纖特性分析 
3.7.1 單模光纖的特征方程及其MATLAB數(shù)值求解                                                    
3.7.2 單模光纖的一維模場(chǎng)分布
3.7.3 單模光纖的二維模場(chǎng)分布 
3.7.4 單模光纖的三維模場(chǎng)分布及動(dòng)畫(huà)演示  
3.7.5 單模光纖的歸一化相位常數(shù)
3.7.6 單模光纖的光功率填充因子
3.7.7 單模光纖的模場(chǎng)直徑（模場(chǎng)半徑）
3.7.8 光纖中模場(chǎng)的高斯模型近似  
3.8 多模光纖特性分析
3.8.1 多模光纖的特征方程及其MATLAB數(shù)值求解                                                     
3.8.2 多模光纖模式的二維光場(chǎng)分布                                                    
3.8.3 多模光纖模式的三維光場(chǎng)分布及動(dòng)畫(huà)演示                                                                                     
3.9 MATLAB預(yù)備技能與技巧             
3.9.1 Bessel函數(shù)及其特性                                                     
3.9.2 MATLAB的三維曲線作圖 
3.9.3 MATLAB的三維曲面作圖 
3.9.4 MATLAB的動(dòng)畫(huà)制作 
3.10 習(xí)題                                                                                    
第4 章高斯光束和光纖耦合  
4.1 高斯光束及其傳播   
4.1.1 高斯光束的基本性質(zhì)                                                    
4.1.2 高斯光束的復(fù)參數(shù)表示和ABCD定律 
4.1.3 高斯光束通過(guò)復(fù)雜光學(xué)系統(tǒng)的變換 
4.1.4 高斯光束通過(guò)薄透鏡的變換 
4.1.5 高斯光束的聚焦                                                                                     
4.2 光纖端面的輻射場(chǎng) 
4.2.1 夫朗和費(fèi)區(qū)域的輻射場(chǎng)              
4.2.2 高斯孔徑光束的輻射場(chǎng)               
4.2.3 試驗(yàn)確定參數(shù)ka及V的值                                                                                     
4.3 光纖的光功率發(fā)射和耦合               
4.3.1 光源的輸出方向圖 
4.3.2 光源耦合進(jìn)多模光纖的光功率計(jì)算
4.3.3 LED與單模光纖的光功率耦合                                                    
4.4 光纖與光纖的連接及其光功率損耗                                                                                   
4.4.1 多模光纖連接的光功率損耗 
4.4.2 單模光纖連接的光功率損耗
4.5 MATLAB預(yù)備技能與技巧             
4.5.1 數(shù)值積分和符號(hào)積分的基本概念                                                                                     
4.5.2 積分的MATLAB符號(hào)計(jì)算 
4.5.3 積分的MATLAB數(shù)值計(jì)算 
4.6 習(xí)題  
第5 章激光原理及仿真 
5.1 激光發(fā)展簡(jiǎn)介                                                                                    
5.2 輻射與物質(zhì)的相互作用                                                    
5.2.1 吸收、反射、透過(guò)率及系數(shù)                                                                                     
5.2.2 熱輻射現(xiàn)象                                                                                    
5.2.3 黑體輻射的規(guī)律                                                                                     
5.2.4 普朗克公式和能量量子化假設(shè)                                                     
5.2.5 玻爾茲曼分布                                          
5.3 自發(fā)輻射、受激輻射和受激吸收
5.3.1 自發(fā)輻射                                                                                      
5.3.2 受激輻射                                                                                      
5.3.3 受激吸收                                                                                       
5.3.4 愛(ài)因斯坦關(guān)系式                                                                                      
5.4 吸收與光學(xué)增益                                                                                     
5.4.1 原子線形                                                                                    
5.4.2 受激吸收                                                                                     
5.5 激光器的基本構(gòu)成和激光的模式 
5.5.1 激光器的基本構(gòu)成
5.5.2 激光的模式                                                                                      
5.6 激光速率方程                                                                                      
5.6.1 三能級(jí)系統(tǒng)的速率方程                 
5.6.2 四能級(jí)系統(tǒng)的速率方程                 
5.7 激光調(diào)Q 技術(shù)                                                                                                                                                                
5.7.1 激光調(diào)Q 原理 
5.7.2 聲光調(diào)Q                                                                                                                                                                   
5.7.3 被動(dòng)調(diào)Q                                                                                                                                                                  
5.8 激光二極管抽運(yùn)的被動(dòng)調(diào)Q 微晶片激光器仿真                                                                                    
5.8.1 被動(dòng)調(diào)Q 耦合速率方程組 
5.8.2 被動(dòng)調(diào)Q 耦合速率方程組數(shù)值仿真                                                                                    
5.9 MATLAB預(yù)備技能與技巧              
5.9.1 微分方程的概念                                                                                   
5.9.2 常微分方程的數(shù)值解法（初值問(wèn)題） 
5.9.3 歐拉法                                                                                                                            
5.9.4 龍格–庫(kù)塔法 
5.9.5 MATLAB中的常微分方程初值問(wèn)題求解 
5.9.6 MATLAB中的ode求解函數(shù)                                                      
5.9.7 高階常微分方程（組）的MATLAB數(shù)值求解                                                     
5.10 習(xí)題                                                                                    
第6 章高功率雙包層光纖激光器及仿真                                                                                  
6.1 雙包層光纖激光器概述                                                       
6.1.1 光纖激光器發(fā)展歷史                                                       
6.1.2 雙包層光纖的結(jié)構(gòu) 
6.1.3 雙包層光纖激光器和其他激光器比較
6.2 端面抽運(yùn)的摻Y(jié)b雙包層光纖激光器的基本理論及仿真                                                                                     
6.2.1 端面抽運(yùn)方式 
6.2.2 Yb離子的能級(jí)結(jié)構(gòu)和光譜特性 
6.2.3 速率方程和公式推導(dǎo)                                                      
6.2.4 端面抽運(yùn)高功率雙包層光纖激光器的數(shù)值仿真                
6.3 側(cè)面抽運(yùn)的雙包層光纖激光器及其仿真  
6.3.1 側(cè)面抽運(yùn)的耦合方式                                                       
6.3.2 多點(diǎn)側(cè)面抽運(yùn)的光纖激光器理論模型 
6.3.3 多點(diǎn)側(cè)面抽運(yùn)高功率雙包層光纖激光器的數(shù)值仿真                                                       
6.4 MATLAB預(yù)備技能與技巧               
6.4.1 常微分方程的邊值問(wèn)題概述 
6.4.2 邊值問(wèn)題數(shù)值解法 
6.4.3 利用MATLAB求解邊值問(wèn)題示例                                                                                    
6.5 習(xí)題                                                                                           
MATLAB函數(shù)名與關(guān)鍵詞索引                                                      
術(shù)語(yǔ)索引  
參考文獻(xiàn)