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Preface; Contents; Chapter 1: Optical Imaging Through Horizontal-Path Turbulence: A New Solution to a Difficult Problem; 1.1 Introduction; 1.2 Fourier Domain Imaging and Fourier Telescopy; 1.3 Time-Average Fourier Telescopy; 1.4 Calculating the Average Magnitude and Phase; 1.5 Concluding Remarks; References; Chapter 2: Aluminum Strain Measurement by Beam Propagation; 2.1 Introduction; 2.2 Developments; 2.2.1 Optics; 2.2.2 Mechanics; 2.3 Experimental Setup and Data Processing; 2.4 Results and Discussion; 2.4.1 Theoretical Demonstration; 2.5 Conclusions; References
Chapter 3: The Technique of Laser-Induced Breakdown Spectroscopy for Determination of Heavy Metals in the Receiving Body of Wa...3.1 Introduction; 3.2 Methodological Development; 3.2.1 Samples Preparation and Calibration Curve; 3.2.1.1 Fortified Samples for the Calibration Curve; 3.2.1.2 Ni and Cu Fortified Samples; 3.2.2 Experimental Facility; 3.2.3 Application of LIBS Technique and Identification of Emission Lines; 3.2.4 Neural Network; 3.3 Results and Discussion; 3.3.1 Analysis of the Spectra Obtained with the LIBS Technique
3.3.2 Analysis of the Spectra of the Membranes with the PAST Software3.4 Conclusions; References; Chapter 4: Applications of Laser Induced Breakdown Spectroscopy in the Identification of Bacteria; 4.1 Introduction; 4.2 Experimental Methodology; 4.2.1 Samples Preparation; 4.2.2 Experimental Installation; 4.2.3 Identification of Spectral Lines; 4.3 Results and Discussion; 4.4 Conclusions; References; Chapter 5: Residual Stresses Measurement by the Hole-Drilling Technique and DSPI Using the Integral Method with Displacement C...; 5.1 Introduction; 5.2 Radial In-Plane DSPI Interferometer
5.3 Residual Stress Calculation5.4 Experimental Verification; 5.5 Conclusions; References; Chapter 6: On the Separation of Complete Triaxial Strain/Stress Profiles from Diffraction Experiments; 6.1 Introduction; 6.2 Goniometers; 6.3 Fundamental Equations; 6.4 Simulation; References; Chapter 7: Quantification of Slow Mechanical Displacements in Metal Samples by Optical Polarization Phase Shift DSPI; 7.1 Introduction; 7.2 Digital Speckle Pattern Interferometry; 7.3 Experimental Configuration; 7.4 Results; 7.5 Conclusions; References
Chapter 8: Comparative Analysis of Optoelectronic Properties of Glucose for Non-invasive Monitoring8.1 Introduction; 8.2 Measuring Glucose Concentration from its Chemical Properties; 8.3 Measuring Electrical Properties of Glucose; 8.4 Optical Properties of Glucose; 8.4.1 Changes of Intensity; 8.4.2 Polarization; 8.4.3 Absorption Spectroscopy; 8.4.4 Fluorescence; 8.5 Other Properties of Glucose; 8.5.1 Thermal Properties; 8.5.2 Acoustic Properties; 8.6 A Summary of Emerging Methods for Glucose Detection; 8.7 Conclusions; References
Chapter 3: The Technique of Laser-Induced Breakdown Spectroscopy for Determination of Heavy Metals in the Receiving Body of Wa...3.1 Introduction; 3.2 Methodological Development; 3.2.1 Samples Preparation and Calibration Curve; 3.2.1.1 Fortified Samples for the Calibration Curve; 3.2.1.2 Ni and Cu Fortified Samples; 3.2.2 Experimental Facility; 3.2.3 Application of LIBS Technique and Identification of Emission Lines; 3.2.4 Neural Network; 3.3 Results and Discussion; 3.3.1 Analysis of the Spectra Obtained with the LIBS Technique
3.3.2 Analysis of the Spectra of the Membranes with the PAST Software3.4 Conclusions; References; Chapter 4: Applications of Laser Induced Breakdown Spectroscopy in the Identification of Bacteria; 4.1 Introduction; 4.2 Experimental Methodology; 4.2.1 Samples Preparation; 4.2.2 Experimental Installation; 4.2.3 Identification of Spectral Lines; 4.3 Results and Discussion; 4.4 Conclusions; References; Chapter 5: Residual Stresses Measurement by the Hole-Drilling Technique and DSPI Using the Integral Method with Displacement C...; 5.1 Introduction; 5.2 Radial In-Plane DSPI Interferometer
5.3 Residual Stress Calculation5.4 Experimental Verification; 5.5 Conclusions; References; Chapter 6: On the Separation of Complete Triaxial Strain/Stress Profiles from Diffraction Experiments; 6.1 Introduction; 6.2 Goniometers; 6.3 Fundamental Equations; 6.4 Simulation; References; Chapter 7: Quantification of Slow Mechanical Displacements in Metal Samples by Optical Polarization Phase Shift DSPI; 7.1 Introduction; 7.2 Digital Speckle Pattern Interferometry; 7.3 Experimental Configuration; 7.4 Results; 7.5 Conclusions; References
Chapter 8: Comparative Analysis of Optoelectronic Properties of Glucose for Non-invasive Monitoring8.1 Introduction; 8.2 Measuring Glucose Concentration from its Chemical Properties; 8.3 Measuring Electrical Properties of Glucose; 8.4 Optical Properties of Glucose; 8.4.1 Changes of Intensity; 8.4.2 Polarization; 8.4.3 Absorption Spectroscopy; 8.4.4 Fluorescence; 8.5 Other Properties of Glucose; 8.5.1 Thermal Properties; 8.5.2 Acoustic Properties; 8.6 A Summary of Emerging Methods for Glucose Detection; 8.7 Conclusions; References