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化学传感器:仿真与建模 第4卷 光学传感器 下 英文影印版PDF|Epub|txt|kindle电子书版本网盘下载
- (摩尔)科瑞特森科韦主编 著
- 出版社: 哈尔滨:哈尔滨工业大学出版社
- ISBN:7560349077
- 出版时间:2015
- 标注页数:502页
- 文件大小:51MB
- 文件页数:292页
- 主题词:
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图书目录
7 NOVEL LONG-PERIOD FIBER GRATING SENSOR BASED ON DUAL-PEAK RESONANCE AND SPR&Zhenqtian Gu227
1 Introduction227
2 Dual Peak Resonance in Coated LPFG231
2.1 Coupled Theoretical Analysis of Coated LPFG231
2.2 Determination of Dual Resonance Wavelengths232
2.3 Transmission Characteristics of Dual Resonance LPFG235
3 Model Analysis Of SPR-Based LPFG with Metal Coating239
3.1 Establishing the Complex Characteristic Equation241
3.2 Equation Solution Method243
3.3 Intensity Profile of Cladding Mode248
4 OPtimization of Coated LPFG Sensor Based on DPR and SPR249
4.1 Definition of Sensor Sensitivity249
4.2 Optimization of Design of LPFG Sensors250
5 Dispersion in Metal-Coated LPFG Sensors255
5.1 Dispersion Expression255
5.2 Material Dispersion Influence on Resonance Characteristics257
5.3 Jump Region in Response of Resonance Wavelength260
5.4 Optimization Based on Consideration of Dispersion262
6 Conclusion264
Acknowledgments266
References266
8 ANALYTICAL APPROACHES TO OPTIMIZATION OF GAS DETECTION USING FABRY-P?ROT INTERFEROMETERS&E.Vargas-Rodriguez H.N.Rutt D.Claudio-Gonzalez R.Rojas Laguna J.A.Andrade-Lucio271
1 Introduction271
1.1 Gas Sensor Design273
2 The Narrow-Gap FPI Gas Sensor273
2.1 Sensor Response and the Cross-Correlation Spectroscopy Principle275
2.2 Oprimal FPI Mirror Reflectivity278
2.3 Multiple Gas Sensors Based on the Narrow-Gap Design279
2.4 Narrow-Gap Sensor Design with a Narrow Band-Pass Filter281
2.5 Narrow-Gap Sensor Design and MEMS283
3 The Wide-Gap FPI Gas Sensor284
3.1 The Convolution Method286
4 Internal Reflection Effects300
5 Conclusions301
References302
9 SPECTROSCOPIC MODELING OF MID-INFRARED CHEMICAL SENSORS&A.Wilk B.Mizaikoff305
1 Introduction305
2 Example#1:Accessing the"Active"Sensing Regions of an ATR Element via Ray Tracing308
3 Example#2:Sensor Response Simulation—Toward Virtual Calibrations318
3.1 Experimental Spectra Acquisition320
3.2 Dielectric Function Modeling321
3.3 Model Establishment and Validation324
3.4 Sensor Response Simulation329
3.5 Spectrum Prediction336
4 Example#3:Extended Applications338
4.1 Exploration of the Sources of Deviations in Beer's Law Plots338
4.2 Optical Tolerance Study Ⅰ:Assessing the In-Coupling Ratio—Sharpness of the Focal Point343
4.3 Optical Tolerance Study Ⅱ:Mirror Misalignment343
4.4 Shining Light on Experimentally Challenging Domains:Effects of Displacing the In-Coupling OAPM345
4.5 Extended Sensor Design Evaluation:Simulation of Complex Objects347
5 Conclusions and Outlook353
6 Future Trends354
Acknowledgments355
References355
10 FINITE-ELEMENT MODELING OF INFRARED SENSORS&X.Wang S.-S.Kim A.Wilk B.Mizaikoff363
1 Introduction363
2 Introduction to FEM Modeling Theory364
2.1 Electromagnetic Wave Equation364
2.2 Background on FEM366
3 Near-Infrared Evanescent Field Sensors:From Simulation to Application375
3.1 Example 1376
3.2 Example 2379
4 From Near-Infrared to Mid-Infrared Sensing:Potential and Challenges380
4.1 Quantum Cascade Lasers—A Revolution in MIR Sensor Technology381
4.2 Trends in Miniaturization382
5 Simulation of Mid-Infrared Evanescent Field Waveguides384
5.1 Planar Waveguides384
5.2 Strip/Slot Waveguides392
6 Conclusions and Outlook400
References401
11 DESIGN AND OPTIMIZATION OF OPTICAL GAS SENSOR SYSTEMS&I.Sieber U.Gengenbach405
1 Introduction405
1.1 Gas Sensing Based on the Lambert-Beer Law405
1.2 State of the Art of Folded-Optical-Path Gas Sensor Cells408
1.3 General Setup of Multipass Gas Sensors412
2 Design of Optical Multipass Gas Sensor Cells418
2.1 General Introduction to Design Methodology for Optical Multipass Gas Sensor Cells418
2.2 Design Rules for Optical Multipass Gas Sensor Cells421
2.3 Case Study:NDIR Gas Sensor for CO2 Detection:Detalled Design427
3 Modeling and Simulation432
3.1 Optical Simulation Techniques432
3.2 Case Study:NDIR Gas Sensor for CO2 Detection:Simulation435
4 Design Optimization443
4.1 Optimization Strategy443
4.2 Case Study:NDIR Gas Sensor for CO2 Detection:Optimization of the Analysis Cell444
5 Conclusion449
References452
12 SIMULATION AND MODELING FOR OPTICAL DESIGN OF LASER REMOTE SENSING FOR GAS MEASUREMENTS&Tatsuo Shiina455
1 Introduction455
2 Lidar Techniques457
2.1 Lidar Structure457
2.2 Lidar Techniques462
3 Calculations464
3.1 Lidar Equation464
3.2 Simulation467
3.3 Analysis471
4 Applications475
4.1 Mie Lidar475
4.2 Raman Lidar478
4.3 LED Mini-Lidar481
5 Summary486
References486
INDEX489