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发表于 2007-12-18 20:18:00 |显示全部楼层
<p>《现代通信光电子学》第5版【国外电子与通信教材系列】&nbsp; </p><p>&nbsp;</p><p>英文版</p><p>【著&nbsp; &nbsp;者】 (美)亚里夫著 <br/>【ISBN号】7-121-00305-8 <br/>【出版日期】 2004-09 <br/>【丛书名】 国外电子与<span class="t_tag" href="tag.php?name=%CD%A8%D0%C5">通信</span>教材系列 <br/>【页&nbsp; &nbsp;码】 580<br/>【格&nbsp; &nbsp;式】 超星打印pdf格式</p><p>【内容概况】&nbsp;&nbsp;<br/><br/>   本书是光电子学领域权威著作,是《光电子学》的最新版本,即第五版。本版反映光电子学领域的最新进展。本书主要先容激光<span class="t_tag" href="tag.php?name=%CE%EF%C0%ED">物理</span>学领域各种现象和所有器件的最基本原理,尤其突出各种激光器在光纤通信中的应用,同时本书还附有大量习题和生动实例。该版本新增加的内容包括:光纤中脉冲的色散和压缩,半导体激光器的高速调制,垂直腔表面发射激光器,量子光学,全息数据存储,光纤光栅,DFB激光器等。本书既可作为高等院校光电专业核心教材,也可作为从事实际工作的工程<span class="t_tag" href="tag.php?name=%BC%BC%CA%F5">技术</span>人员的参考用书<br/><br/><br/>【图书目录】 <br/><br/>第1章&nbsp;&nbsp;电磁理论<br/>&nbsp; &nbsp; 1.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 1.1&nbsp;&nbsp;复函数体系<br/>&nbsp; &nbsp; 1.2&nbsp;&nbsp;电磁场能量和功率的考虑<br/>&nbsp; &nbsp; 1.3&nbsp;&nbsp;各向同性介质中波的传播<br/>&nbsp; &nbsp; 1.4&nbsp;&nbsp;晶体中波的传播——折射率椭球<br/>&nbsp; &nbsp; 1.5琼斯计算及其在双折射晶体光学系统中的应用<br/>&nbsp; &nbsp; 1.6&nbsp;&nbsp;电磁波的衍射<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第2章&nbsp;&nbsp;光线和光束的传播<br/>&nbsp; &nbsp; 2.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 2.1&nbsp;&nbsp;透镜波导<br/>&nbsp; &nbsp; 2.2&nbsp;&nbsp;光线在反射镜面间的传播<br/>&nbsp; &nbsp; 2.3&nbsp;&nbsp;在类透镜介质中的光线<br/>&nbsp; &nbsp; 2.4平方律折射率介质中的波动方程<br/>&nbsp; &nbsp; 2.5均匀介质中的高斯光束<br/>&nbsp; &nbsp; 2.6在类透镜介质中的基模高斯光束——ABCD定律<br/>&nbsp; &nbsp; 2.7在透镜波导中的高斯光束<br/>&nbsp; &nbsp; 2.8在均匀介质中的高斯光束高阶模<br/>&nbsp; &nbsp; 2.9&nbsp;&nbsp;在平方律折射率变化的介质中的高斯光束的高阶模<br/>&nbsp; &nbsp; 2.10&nbsp;&nbsp;光波在二次型增益分布介质中的传播<br/>&nbsp; &nbsp; 2.11&nbsp;&nbsp;椭圆高斯光束<br/>&nbsp; &nbsp; 2.12&nbsp;&nbsp;傍轴A,B,C,D系统的衍射积分<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第3章&nbsp;&nbsp;光束在光纤中的传输<br/>&nbsp; &nbsp; 3.0引言<br/>&nbsp; &nbsp; 3.1圆柱坐标系中的波动方程<br/>&nbsp; &nbsp; 3.2阶跃折射率圆波导<br/>&nbsp; &nbsp; 3.3线偏振模<br/>&nbsp; &nbsp; 3.4&nbsp;&nbsp;光纤中的光脉冲传输与脉冲展宽<br/>&nbsp; &nbsp; 3.5群速度色散的补偿<br/>&nbsp; &nbsp; 3.6空间衍射与时间色散的类比<br/>&nbsp; &nbsp; 3.7硅光纤中的损耗<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第4章&nbsp;&nbsp;光学共振腔<br/>&nbsp; &nbsp; 4.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 4.1&nbsp;&nbsp;法布里珀罗标准具<br/>&nbsp; &nbsp; 4.2用作光谱分析仪的法布里珀罗标准具<br/>&nbsp; &nbsp; 4.3球面镜光学共振腔<br/>&nbsp; &nbsp; 4.4模的稳定性判据<br/>&nbsp; &nbsp; 4.5广义共振腔中的模式——自洽法<br/>&nbsp; &nbsp; 4.6光共振腔中的共振频率<br/>&nbsp; &nbsp; 4.7光学共振腔中的损耗<br/>&nbsp; &nbsp; 4.8光学共振腔——衍射理论方法<br/>&nbsp; &nbsp; 4.9模耦合<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第5章&nbsp;&nbsp;辐射和原子系统的相互作用<br/>&nbsp; &nbsp; 5.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 5.1原子能级之间的自发跃迁——均匀增宽和非均匀增宽<br/>&nbsp; &nbsp; 5.2&nbsp;&nbsp;受激跃迁<br/>&nbsp; &nbsp; 5.3&nbsp;&nbsp;吸取和放大<br/>&nbsp; &nbsp; 5.4&nbsp;&nbsp;χ′(ν)的推导<br/>&nbsp; &nbsp; 5.5χ(ν)的物理意义<br/>&nbsp; &nbsp; 5.6&nbsp;&nbsp;均匀激光介质中的增益饱和<br/>&nbsp; &nbsp; 5.7非均匀激光介质中的增益饱和<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第6章&nbsp;&nbsp;激光振荡理论及其在连续区和脉冲区的控制<br/>&nbsp; &nbsp; 6.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 6.1&nbsp;&nbsp;法布里珀罗激光器<br/>&nbsp; &nbsp; 6.2&nbsp;&nbsp;振荡频率<br/>&nbsp; &nbsp; 6.3&nbsp;&nbsp;三能级和四能级激光器<br/>&nbsp; &nbsp; 6.4&nbsp;&nbsp;激光振荡器的功率<br/>&nbsp; &nbsp; 6.5&nbsp;&nbsp;激光振荡器的最佳输出耦合<br/>&nbsp; &nbsp; 6.6&nbsp;&nbsp;多模激光振荡器和锁模<br/>&nbsp; &nbsp; 6.7&nbsp;&nbsp;在均匀增宽激光系统中的锁模<br/>&nbsp; &nbsp; 6.8&nbsp;&nbsp;脉冲宽度的测量和啁啾脉冲的收缩<br/>&nbsp; &nbsp; 6.9&nbsp;&nbsp;巨脉冲(调Q)激光器<br/>&nbsp; &nbsp; 6.10&nbsp;&nbsp;多普勒增宽气体激光器中的烧孔效应和兰姆凹陷<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第7章&nbsp;&nbsp;一些特殊的激光器系统<br/>&nbsp; &nbsp; 7.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 7.1&nbsp;&nbsp;抽运与激光器效率<br/>&nbsp; &nbsp; 7.2&nbsp;&nbsp;红宝石激光器<br/>&nbsp; &nbsp; 7.3掺钕钇铝石榴石(Nd3+:YAG)激光器<br/>&nbsp; &nbsp; 7.4掺钕玻璃激光器<br/>&nbsp; &nbsp; 7.5氦氖(HeNe)激光器<br/>&nbsp; &nbsp; 7.6&nbsp;&nbsp;二氧化碳激光器<br/>&nbsp; &nbsp; 7.7&nbsp;&nbsp;氩离子(Ar+)激光器<br/>&nbsp; &nbsp; 7.8&nbsp;&nbsp;激基分子激光器<br/>&nbsp; &nbsp; 7.9&nbsp;&nbsp;有机染料激光器<br/>&nbsp; &nbsp; 7.10气体激光器的高压操作<br/>&nbsp; &nbsp; 7.11&nbsp;&nbsp;掺铒硅基激光器<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第8章&nbsp;&nbsp;二次谐波产生与参变振荡<br/>&nbsp; &nbsp; 8.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 8.1&nbsp;&nbsp;非线性极化的物理起源<br/>&nbsp; &nbsp; 8.2&nbsp;&nbsp;非线性介质中波传播的公式<br/>&nbsp; &nbsp; 8.3光的二次谐波产生<br/>&nbsp; &nbsp; 8.4激光共振腔内的二次谐波产生<br/>&nbsp; &nbsp; 8.5&nbsp;&nbsp;二次谐波产生的光子模型<br/>&nbsp; &nbsp; 8.6&nbsp;&nbsp;参变放大<br/>&nbsp; &nbsp; 8.7参变放大的相位匹配<br/>&nbsp; &nbsp; 8.8&nbsp;&nbsp;参变振荡<br/>&nbsp; &nbsp; 8.9&nbsp;&nbsp;参变振荡的频率调谐<br/>&nbsp; &nbsp; 8.10&nbsp;&nbsp;光参变振荡器中的输出功率和抽运饱和<br/>&nbsp; &nbsp; 8.11&nbsp;&nbsp;频率上转换<br/>&nbsp; &nbsp; 8.12准相位匹配<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第9章&nbsp;&nbsp;激光光束的电光调制<br/>&nbsp; &nbsp; 9.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 9.1&nbsp;&nbsp;电光效应<br/>&nbsp; &nbsp; 9.2电光相位延迟<br/>&nbsp; &nbsp; 9.3电光振幅调制<br/>&nbsp; &nbsp; 9.4&nbsp;&nbsp;光的相位调制<br/>&nbsp; &nbsp; 9.5&nbsp;&nbsp;横向电光调制器<br/>&nbsp; &nbsp; 9.6高频调制的考虑<br/>&nbsp; &nbsp; 9.7&nbsp;&nbsp;光束的电光偏转<br/>&nbsp; &nbsp; 9.8&nbsp;&nbsp;电光调制——耦合波分析<br/>&nbsp; &nbsp; 9.9相位调制<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第10章&nbsp;&nbsp;光产生和光探测中的噪声<br/>&nbsp; &nbsp; 10.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 10.1&nbsp;&nbsp;噪声功率引起的限制<br/>&nbsp; &nbsp; 10.2&nbsp;&nbsp;噪声——基本定义和定理<br/>&nbsp; &nbsp; 10.3一列随机发生的事件的谱密度函数<br/>&nbsp; &nbsp; 10.4&nbsp;&nbsp;散粒噪声<br/>&nbsp; &nbsp; 10.5&nbsp;&nbsp;热噪声(约翰逊噪声)<br/>&nbsp; &nbsp; 10.6&nbsp;&nbsp;激光振荡器中的自发辐射噪声<br/>&nbsp; &nbsp; 10.7&nbsp;&nbsp;激光线宽的相矢量推导<br/>&nbsp; &nbsp; 10.8&nbsp;&nbsp;相干与干涉<br/>&nbsp; &nbsp; 10.9二进制脉码调制系统中的误码率<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第11章&nbsp;&nbsp;光辐射的探测<br/>&nbsp; &nbsp; 11.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 11.1&nbsp;&nbsp;光激励跃迁速率<br/>&nbsp; &nbsp; 11.2&nbsp;&nbsp;光电倍增管<br/>&nbsp; &nbsp; 11.3&nbsp;&nbsp;光电倍增管中的噪声机制<br/>&nbsp; &nbsp; 11.4&nbsp;&nbsp;光电倍增管的外差探测<br/>&nbsp; &nbsp; 11.5&nbsp;&nbsp;光电导探测器<br/>&nbsp; &nbsp; 11.6pn结<br/>&nbsp; &nbsp; 11.7半导体光电二极管<br/>&nbsp; &nbsp; 11.8雪崩光电二极管<br/>&nbsp; &nbsp; 11.9激光器的功率涨落噪声<br/>&nbsp; &nbsp; 11.10红外成像和本底受限探测<br/>&nbsp; &nbsp; 11.11光纤<span class="t_tag" href="tag.php?name=%CF%DF%C2%B7">线路</span>中的光放大<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第12章&nbsp;&nbsp;光和声的相互作用<br/>&nbsp; &nbsp; 12.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 12.1&nbsp;&nbsp;声波对光的散射<br/>&nbsp; &nbsp; 12.2声波对光产生的布拉格衍射的粒子图像<br/>&nbsp; &nbsp; 12.3声波对光产生的布拉格衍射的分析<br/>&nbsp; &nbsp; 12.4声光偏转<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第13章光学电介质波导——周期性波导中的模传播和模耦合<br/>&nbsp; &nbsp; 13.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 13.1&nbsp;&nbsp;波导模——一般性的讨论<br/>&nbsp; &nbsp; 13.2&nbsp;&nbsp;非对称平板波导中的TE模和TM模<br/>&nbsp; &nbsp; 13.3&nbsp;&nbsp;耦合模的微扰理论<br/>&nbsp; &nbsp; 13.4&nbsp;&nbsp;周期性波导<br/>&nbsp; &nbsp; 13.5&nbsp;&nbsp;耦合模的解<br/>&nbsp; &nbsp; 13.6&nbsp;&nbsp;用作光滤波器与反射器的周期性波导——周期性光纤<br/>&nbsp; &nbsp; 13.7&nbsp;&nbsp;电介质波导中的电光调制和模式耦合<br/>&nbsp; &nbsp; 13.8&nbsp;&nbsp;定向耦合<br/>&nbsp; &nbsp; 13.9&nbsp;&nbsp;耦合波导系统的本征模(超模)<br/>&nbsp; &nbsp; 13.10&nbsp;&nbsp;激光器阵列<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第14章全息术和光学数据存储<br/>&nbsp; &nbsp; 14.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 14.1&nbsp;&nbsp;全息术的数学<span class="t_tag" href="tag.php?name=%BB%F9%B4%A1">基础</span><br/>&nbsp; &nbsp; 14.2&nbsp;&nbsp;体积全息图的耦合波分析<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第15章半导体激光器——理论及应用<br/>&nbsp; &nbsp; 15.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 15.1&nbsp;&nbsp;半导体物理基础<span class="t_tag" href="tag.php?name=%D6%AA%CA%B6">常识</span><br/>&nbsp; &nbsp; 15.2&nbsp;&nbsp;半导体(激光器)介质内的增益和吸取<br/>&nbsp; &nbsp; 15.3&nbsp;&nbsp;GaAs/Ga1-xAlxAs激光器<br/>&nbsp; &nbsp; 15.4&nbsp;&nbsp;一些实际的激光器结构<br/>&nbsp; &nbsp; 15.5&nbsp;&nbsp;半导体激光器的直流调制<br/>&nbsp; &nbsp; 15.6&nbsp;&nbsp;电流调制半导体激光器中的增益抑制和频率啁啾<br/>&nbsp; &nbsp; 15.7&nbsp;&nbsp;集成光电子学<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第16章先进半导体激光器——量子阱激光器、分布反馈激光器<br/>&nbsp; &nbsp; 和垂直腔表面发射激光器<br/>&nbsp; &nbsp; 16.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 16.1&nbsp;&nbsp;量子阱内的载流子(高级选题)<br/>&nbsp; &nbsp; 16.2&nbsp;&nbsp;量子阱激光器的增益<br/>&nbsp; &nbsp; 16.3&nbsp;&nbsp;分布反馈激光器<br/>&nbsp; &nbsp; 16.4&nbsp;&nbsp;垂直腔表面发射半导体激光器<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第17章&nbsp;&nbsp;相位共轭光学的理论与应用<br/>&nbsp; &nbsp; 17.0&nbsp;&nbsp;背景常识先容<br/>&nbsp; &nbsp; 17.1&nbsp;&nbsp;畸变校正定理<br/>&nbsp; &nbsp; 17.2&nbsp;&nbsp;相位共轭波的产生<br/>&nbsp; &nbsp; 17.3&nbsp;&nbsp;相位共轭光学的耦合模公式<br/>&nbsp; &nbsp; 17.4&nbsp;&nbsp;一些相位共轭的实验<br/>&nbsp; &nbsp; 17.5&nbsp;&nbsp;具有相位共轭反射镜的光学共振腔<br/>&nbsp; &nbsp; 17.6&nbsp;&nbsp;相位共轭光共振腔的ABCD定律<br/>&nbsp; &nbsp; 17.7&nbsp;&nbsp;激光共振腔内的动态畸变校正<br/>&nbsp; &nbsp; 17.8&nbsp;&nbsp;相位共轭光学的全息模拟<br/>&nbsp; &nbsp; 17.9&nbsp;&nbsp;畸变介质的成像<br/>&nbsp; &nbsp; 17.10&nbsp;&nbsp;应用四波混频的图像处理<br/>&nbsp; &nbsp; 17.11&nbsp;&nbsp;光纤色散补偿<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第18章&nbsp;&nbsp;光折变介质中的双光束耦合和相位共轭<br/>&nbsp; &nbsp; 18.0&nbsp; &nbsp;引言<br/>&nbsp; &nbsp; 18.1&nbsp;&nbsp;固定光栅中的双光束耦合<br/>&nbsp; &nbsp; 18.2&nbsp;&nbsp;光折变效应——双光束耦合<br/>&nbsp; &nbsp; 18.3&nbsp;&nbsp;光折变自抽运相位共轭<br/>&nbsp; &nbsp; 18.4&nbsp;&nbsp;光折变振荡器的应用<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; <br/>&nbsp; &nbsp; 第19章&nbsp;&nbsp;光孤子<br/>&nbsp; &nbsp; 19.0&nbsp; &nbsp;引言<br/>&nbsp; &nbsp; 19.1&nbsp;&nbsp;孤子的数学描绘<br/>&nbsp; &nbsp; 习题<br/>&nbsp; &nbsp; 参考文献<br/>&nbsp; &nbsp; 第20章&nbsp;&nbsp;量子光学、量子噪声和压缩态的经典处理<br/>&nbsp; &nbsp; 20.0&nbsp;&nbsp;引言<br/>&nbsp; &nbsp; 20.1&nbsp;&nbsp;量子不确定度趋于经典形式<br/>&nbsp; &nbsp; 20.2&nbsp;&nbsp;光场的压缩态<br/>&nbsp; &nbsp;&nbsp; &nbsp;&nbsp;&nbsp;参考文献<br/>&nbsp; &nbsp; 附录A&nbsp;&nbsp;克拉默斯克勒尼希(KramersKronig)关系<br/>&nbsp; &nbsp; 附录B&nbsp;&nbsp;立方43m晶体中的电光效应<br/>&nbsp; &nbsp; 附录C&nbsp;&nbsp;行波激光放大器中的噪声<br/>&nbsp; &nbsp; 附录D&nbsp;&nbsp;利用薄透镜实现相干电磁场的变换<br/>&nbsp; &nbsp; 索引<br/><br/></p><br/>

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