@misc
{TN_libero_mab2,
author = {
Tompkins, Harland G.
AND
Irene, Eugene A.
},
title = {
Handbook of ellipsometry
},
publisher = {William Andrew Pub},
publisher = {: Springer},
isbn = {9780815514992},
isbn = {0815514999},
isbn = {1591248493},
isbn = {3540222936},
isbn = {0815517467},
isbn = {9780815517467},
isbn = {9781591248491},
isbn = {9783540222934},
keywords = {
Ellipsometry
,
SCIENCE ; Nanoscience
,
Ellipsométrie
,
Electronic books
,
Ellipsometrie
},
year = {2005},
year = {, 2005},
abstract = {Includes bibliographical references and index. - Description based on print version record},
abstract = {Front Cover; Handbook of Ellipsometry; Copyright Page; Contents; Part 1: Theory of Ellipsometry; Chapter 1. Polarized Light and Ellipsometry; 1.1 A Quick Guide to Ellipsometry; 1.2 Maxwell and Wave Equations; 1.3 Representations of Polarization; 1.4 Propagation of Polarized Light; 1.5 Reflection and Transmission of Polarized Light at Planar Interfaces; 1.6 References; Chapter 2. Optical Physics of Materials; 2.1 Introduction; 2.2 Propagation of Light in Solids; 2.3 Classical Theories of the Optical Properties of Solids; 2.4 Quantum Mechanical Theories of the Optical Properties of Solids},
abstract = {2.5 Modeling the Optical Properties of Solids2.6 Overview and Concluding Remarks; 2.7 References and Bibliography; Chapter 3. Data Analysis for Spectroscopic Ellipsometry; 3.1 Introduction; 3.2 Ellipsometry Parameters; 3.3 Calculation of Complex Reflection Coefficients; 3.4 Models for Dielectric Functions; 3.5 Fitting Models to Data; 3.6 Determination of Optical Functions from Spectroscopic Ellipsometry Data; 3.7 Depolarization; 3.8 Further Reading and References; Part 2: Instrumentation; Chapter 4. Optical Components and the Simple PCSA (Polarizer, Compensator, Sample, Analyzer) Ellipsometer},
abstract = {4.1 General4.2 The Components; 4.3 Ellipsometer Component Configurations; 4.4 References; Chapter 5. Rotating Polarizer and Analyzer Ellipsometry; 5.1 Introduction; 5.2 Comparison of Ellipsometers; 5.3 Instrumentation Issues; 5.4 Data Reduction for the Rotating Polarizer and Analyzer Ellipsometers; 5.5 Precision Considerations; 5.6 Calibration Procedures; 5.7 Summary: Recent and Future Directions; 5.8 References; Chapter 6. Polarization Modulation Ellipsometry; 6.1 Introduction; 6.2 The Photoelastic Modulator (PEM); 6.3 Experimental Configurations of Polarization Modulation Ellipsometers},
abstract = {6.4 Light Intensity Through a Polarization Modulation Ellipsometer6.5 Waveform Analysis; 6.6 Calibration Procedures; 6.7 Errors; 6.8 Further Reading and References; Chapter 7. Multichannel Ellipsometry; 7.1 Introduction; 7.2 Overview of Instrumentation; 7.3 Rotating-Element Designs; 7.4 Concluding Remarks; 7.5 References; Part 3: Critical Reviews of Some Applications; Chapter 8. SiO2 Films; 8.1 Introduction; 8.2 Historical Perspective - Prior to 1970; 8.3 Modern Studies - Since 1970; 8.4 Conclusions; 8.5 References; Chapter 9. Theory and Application of Generalized Ellipsometry},
abstract = {9.1 Introduction9.2 The Generalized Ellipsometry Concept; 9.3 Theory of Generalized Ellipsometry; 9.4 Special Generalized Ellipsometry Solutions; 9.5 Strategies in Generalized Ellipsometry; 9.6 Generalized Ellipsometry Applications; 9.7 Conclusions; 9.8 Further Reading and References; Part 4: Emerging Areas in Ellipsometry; Chapter 10. VUV Ellipsometry; 10.1 Introduction; 10.2 Historical Review of Short Wavelength Ellipsometry; 10.3 VUV Ellipsometry Today; 10.4 Importance of VUV Ellipsometry; 10.5 Survey of Applications; 10.6 Future of VUV Ellipsometry; 10.7 Acknowledgments; 10.8 References},
abstract = {Chapter 11. Spectroscopic Infrared Ellipsometry},
address = {
Norwich, NY
,
; Heidelberg, Germany
},
url = {
http://slubdd.de/katalog?TN_libero_mab2
}
}