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非線性發(fā)射光子玻璃光纖波導(dǎo)器件(英文版)

非線性發(fā)射光子玻璃光纖波導(dǎo)器件(英文版)

定 價(jià):¥198.00

作 者: 姜淳,宋培
出版社: 上??茖W(xué)技術(shù)出版社
叢編項(xiàng):
標(biāo) 簽: 暫缺

ISBN: 9787547845615 出版時(shí)間: 2020-01-01 包裝:
開(kāi)本: 頁(yè)數(shù): 122 字?jǐn)?shù):  

內(nèi)容簡(jiǎn)介

  本書系統(tǒng)、全面地總結(jié)了國(guó)內(nèi)外在稀土離子多重?fù)诫s光子玻璃中發(fā)光離子的相互作用方面的*新成果,介紹了各類摻雜材料的概念、非線性發(fā)光功能效應(yīng)、研究與開(kāi)發(fā)現(xiàn)狀、應(yīng)用領(lǐng)域、存在的問(wèn)題及其發(fā)展方向。內(nèi)容包括新型摻雜材料和多稀土共摻雜材料的光譜性質(zhì)計(jì)算、相互作用的理論模型、在光電子器件和光通信系統(tǒng)與網(wǎng)絡(luò)等中的應(yīng)用,涉及所有的稀土和過(guò)渡金屬離子的光譜性質(zhì),覆蓋面非常廣。

作者簡(jiǎn)介

  姜淳,上海交通大學(xué)電子信息與電氣工程學(xué)院電子工程系教授。2005.10-2006.11: 美國(guó)麻省理工學(xué)院(MIT)電子學(xué)研究實(shí)驗(yàn)室(RLE)和物理系高級(jí)研究學(xué)者。從事光電子材料與器件的研究近20年,發(fā)表SCI學(xué)術(shù)論文100余篇, SCI他引500余次;發(fā)明專利10余項(xiàng);2007年獲得教育部自然科學(xué)一等獎(jiǎng),2009年獲得上海自然科學(xué)三等獎(jiǎng)。

圖書目錄

1Fundamental Mathematics of Nonlinear Emission Photonic Glass Fiber and Waveguide Devices1
1.1Introduction1
1.2Newton Iteration Algorithm for Nonlinear Rate Equation Solution1
1.2.1SingleVariable1
1.2.2MultiVariable3
1.3RungeKutta Algorithm for PowerPropagation Equation Solution4
1.3.1SingleFunction4
1.3.2MultiFunctions6
1.4TwoPoint Boundary Problem for PowerPropagation Equations in a Laser Cavity7
1.4.1Principle7
1.4.2Shooting Method and Relaxation Method7
References92Fundamental Spectral Theory of Photonic Glasses10
2.1Introduction10
2.2JuddOfelt Theory10
2.3Transition Probability and Quantum Efficiency12
2.4Fluorescence Branch Ratio13
2.5Homogeneous and Inhomogeneous Broadening of Spectra14
References153Spectral Properties of YtterbiumDoped Glasses16
3.1Introduction16
3.2Formation Region of Yb2O3Containing Glasses16
3.3Laser Performance Parameters of YtterbiumDoped Glasses17
3.3.1Minimum Fraction of Excited State Ions17
3.3.2Saturation Pump Intensity18
3.3.3Minimum Pump Intensity18
3.3.4StorageEnergy and Gain Parameters18
3.4Spectral Properties of Yb3+Doped Borate Glasses19
3.4.1Compositional Dependence of Spectral Properties19
3.4.2Dependence of Spectral Properties on Active Ion Concentration22
3.5Spectral Properties of Yb3+Doped Phosphate Glasses23
3.5.1Compositional Dependence of Spectral Properties23
3.5.2Dependence of Spectral Properties on Active Ion Concentration26
3.6Spectral Properties of Yb3+Doped Silicate Glasses28
3.6.1Compositional Dependence of Spectral Properties28
3.6.2Dependence of Spectral Properties on Active Ion Concentration32
3.7Spectral Properties of Yb3+Doped Germanate Glasses34
3.8Spectral Properties of Yb3+Doped Telluride Glasses36
3.8.1Compositional Dependence of Spectral Properties36
3.8.2Dependence of Spectral Properties on Active Ion Concentration39
3.9Dependence of Spectral Property and Laser Performance Parameters on Glass System43
3.9.1Dependence of Spectral Property on Glass Systems43
3.9.2Dependence of Laser Performance Parameters on Glass Systems46
3.10Dependence of EnergyLevel Structure of Yb3+ on Glass Systems51
3.11Cooperative Upconversion of Yb3+ Ion Pairs53
3.11.1Cooperative Upconversion Luminescence53
3.11.2ConcentrationQuenching Mechanics57
3.11.3Concentration Dependence of Luminescence Intensity59
3.12Fluorescence Trap Effect of Yb3+ Ions in Glasses60
References634Compact Fiber Amplifiers65
4.1Introduction65
4.2Level Structure and Numerical Model66
4.3Dependence of Gain and Noise Figure on Concentrations67
4.4Doping Concentrations with ShortLength High Gain71
References725Photonic Glass Fiber Lasers74
5.1Introduction74
5.2Fundamental Physics of Fiber Laser74
5.2.1Lasing Conditions of Laser74
5.2.2Threshold Gain75
5.2.3Phase Condition and Laser Modes76
5.2.4Population Inversion Calculation76
5.3Numerical Models of RareEarthDoped Fiber Lasers80
5.3.1Configuration and PowerPropagation Equations of Fiber Laser80
5.3.2Output Power of a TwoLevel Fiber Laser81
5.3.3Output Power of a ThreeLevel Fiber Laser83
5.3.4Output Power of a FourLevel Fiber Laser84
5.3.5Output Power of Yb3+Doped Fiber Laser85
References906Broadband Fiber Amplifiers and Sources91
6.1Introduction91
6.2Pr3+Tm3+Er3+CoDoped Fiber System92
6.2.1General Rate and PowerPropagation Equations with Two Wavelength Pumps92
6.2.2Gain Characteristics with 980nm Pump96
6.2.3Gain Characteristics with 793nm Pump99
6.2.4Gain Characteristics with Double Pumps105
6.3Gain Characteristics of Pr3+Er3+CoDoped Fiber System131
6.3.1Rate and PowerPropagation Equations131
6.3.2Dependence of Gain on Fiber Parameters134
6.4WDM Transmission System Cascaded with Tm3+Er3+CoDoped Fiber Amplifiers139
6.4.1WDM System with Single Pump140
6.4.2WDM System with Dual Pumps141
References1437Photonic Glass Waveguide for Spectral Conversion145
7.1Introduction145
7.2Theoretical Model and Spectral Characterization 146
7.2.1Theoretical Model 146
7.2.2Spectral Characterization 148
ContentsixxContents7.3DoublyDoped System 148
7.3.1Energy Transfer Model 149
7.3.2Quantum Efficiency of Photonic Glass Waveguide 152
7.4TriplyDoped System 159
7.4.1Energy Transfer Model 159
7.4.2Quantum Efficiency of Photonic Glass Waveguide 163
7.5Performance Evaluation of scSiSolar Cell with Photonic Glass Waveguides 171
References1748Photonic Glass Waveguide for WhiteLight Generation177
8.1Introduction 177
8.2WhiteLight Glasses 178
8.2.1Tm3+Tb3+Eu3+CoDoped System 178
8.2.2Yb3+Er3+Tm3+CoDoped System 185
8.3EmissionTunable Glasses194
8.3.1Tb3+Sm3+Dy3+CoDoped System 194
8.3.2Tm3+Yb3+Ho3+CoDoped System 205
References214Appendix 1Matlab Code for Solving Nonlinear Rate and Power Propagation Equation
Groups in Co Doped Fiber Amplifiers or Fiber Sources219
A1.1Nonlinear Rate Equation Group and Coupled PowerPropagation
Equation Group of a ThreeActive IonsCoDoped System219
A1.2Code for Solving Linear Rate Equation Group220
A1.3Code for Solving Nonlinear Rate Equation Group220
A1.4Code for Variation of Gain with Fiber Length222
A1.5Code for Variation of Gain with Active Ion Concentration223Appendix 2Matlab Code for Solving PowerPropagation Equations of a Laser
Cavity with FourLevel System225Index228

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