Optically Anomalous Crystals (eBook)
VII, 277 Seiten
Springer Netherland (Verlag)
978-1-4020-5353-5 (ISBN)
This book begins with an historical introduction covering the contributions of many distinguished crystallographers. From this follows a tutorial in crystal optics. Further chapters discuss the two main mechanisms of optical dissymmetry, the piezo-optic effect and the kinetic ordering of atoms. The book treats the literature comprehensively, but uses illustrations from the authors' laboratories as the subjects of detailed analyses.
Alexander Shtukenberg was born in St. Petersburg in 1971. He received his diploma in crystallography and mineralogy from the St. Petersburg State University in 1993, and his PhD in 1997. Following postdoctoral fellowships at the Mineralogy and Petrography Institute of the University of Bonn and at the Paul Drude Institute for Solid State Electronics, Berlin, he has returned to his alma mater as an instructor in crystallography. Shtukenberg's research has focused on the structure and properties of solid solutions. He has published 27 papers in addition to the monograph, Optical Anomalies in Crystals.
Yurii Punin was born in St. Petersburg in 1941. He completed his education at the St. Petersburg State University in 1963. Following military service, he began his research career at the Earth Crust Research Institute of St. Petersburg State University completing a PhD thesis in 1970 on the kinetics of crystal growth. After habilitation in 1994, Punin received a professorship in the crystallography at the St. Petersburg State University. He has served as the head of the crystallography department since 2002. Punin is a specialist in the field of crystal growth from solution, having developed the theory of strain induced growth defects that provides insights into twinning, mosaicity, and order-disorder transitions. He has created a widely regarded course of lectures on 'Crystal Growth' in addition to the publication of 120 papers and 2 books.
Editor:
Bart Kahr was born in New York City in 1961. He attended Middlebury College in Vermont. Following doctoral research on the stereochemistry of unusual molecules at Princeton University, he joined the laboratory of J. Michael McBride at Yale University where he studied the history of optically anomalous crystals. In 1990, he joined the chemistry faculty of Purdue University and was named a National Science Foundation Young Investigator. In 1997, Kahr moved his laboratory to the University of Washington in Seattle where he is currently Professor of Chemistry. His research group studies the growth, structure, and physical properties of crystalline solids, as well as the history of crystallography. He is the author or co-author of 100 scientific publications.
Optically Anomalous Crystals begins with an historical introduction covering the contributions of Brewster, Biot, Mallard, Brauns, Tamman, and many other distinguished crystallographers. From this follows a tutorial in crystal optics. Further chapters discuss the two main mechanisms of optical dissymmetry: 1. the piezo-optic effect, and 2. the kinetic ordering of atoms. The text then tackles complex, inhomogeneous crystals, and the complex optical properties resulting from the superposition of anomalies having various etiologies. The book treats the literature comprehensively, but uses illustrations from the authors' laboratories as the subjects of detailed analyses.This is an invaluable text for crystallographers, mineralogists, and petrologists interested in the growth of minerals and synthetic crystals, and their optical properties. It is also ideally suited to students of optical mineralogy, professional scientists and engineers as well as historians of science.
Alexander Shtukenberg was born in St. Petersburg in 1971. He received his diploma in crystallography and mineralogy from the St. Petersburg State University in 1993, and his PhD in 1997. Following postdoctoral fellowships at the Mineralogy and Petrography Institute of the University of Bonn and at the Paul Drude Institute for Solid State Electronics, Berlin, he has returned to his alma mater as an instructor in crystallography. Shtukenberg’s research has focused on the structure and properties of solid solutions. He has published 27 papers in addition to the monograph, Optical Anomalies in Crystals. Yurii Punin was born in St. Petersburg in 1941. He completed his education at the St. Petersburg State University in 1963. Following military service, he began his research career at the Earth Crust Research Institute of St. Petersburg State University completing a PhD thesis in 1970 on the kinetics of crystal growth. After habilitation in 1994, Punin received a professorship in the crystallography at the St. Petersburg State University. He has served as the head of the crystallography department since 2002. Punin is a specialist in the field of crystal growth from solution, having developed the theory of strain induced growth defects that provides insights into twinning, mosaicity, and order-disorder transitions. He has created a widely regarded course of lectures on "Crystal Growth" in addition to the publication of 120 papers and 2 books. Editor: Bart Kahr was born in New York City in 1961. He attended Middlebury College in Vermont. Following doctoral research on the stereochemistry of unusual molecules at Princeton University, he joined the laboratory of J. Michael McBride at Yale University where he studied the history of optically anomalous crystals. In 1990, he joined the chemistry faculty of Purdue University and was named a National Science Foundation Young Investigator. In 1997, Kahr moved his laboratory to the University of Washington in Seattle where he is currently Professor of Chemistry. His research group studies the growth, structure, and physical properties of crystalline solids, as well as the history of crystallography. He is the author or co-author of 100 scientific publications.
1. Crystal Optics 1.1. Introduction to Crystal Optics in Transmitted Light 1.1.1. Light in Isotropic Media 1.1.2. Light in Anisotropic Medium: Linear Birefringence 1.1.3. Symmetry of the Optical Indicatrix 1.1.4. Other Linear Optical Phenomena 1.1.5. Composition, Structure, and Optics 1.2. Characterizing the Optical Indicatrix 1.3. Definition of Optical Anomalies in Terms of the Indicatrix 1.4. Anomalies of Obvious Etiology 1.4.1. Gross Compositional Inhomogeneity 1.4.2. Macroscopic Deformations of Crystals 1.5. Abundance of Optical Anomalies 2. Stress Induced Optical Anomalies 2.1. Introduction 2.2. Phenomenological Description of Piezooptic Effects 2.2.1. Piezooptic and Elastooptic Coefficients 2.2.2. Piezooptic Phenomena in Amorphous Solids 2.2.3. Piezooptic Phenomenon in Cubic Crystals 2.2.4. Piezooptic Phenomenon in Uniaxial Crystals 2.2.5. The General Case 2.2.6. Example: Piezooptic Effect in PbMoO4 2.3. Numerical Estimations of Stress and Stress-Induced Optical Anomalies 2.4. Sources of Stress 2.5. Inclusions 2.6. Dislocations 2.6.1. Single Dislocations 2.6.2. Dislocation Ensembles 2.6.3. Macroblocks, Grain, and Twin Boundaries 2.7. Thermoelasticity and Thermoplasticity 2.8. Compositional Heterometry 2.8.1. What is Heterometry? 2.8.2. Zoning 2.8.3. Growth Sector Zoning 2.8.4. Sub-Sector Zoning 2.8.5. Effect of Growth Conditions on the Stress-Induced Optical Anomalies 3. Kinetic Ordering-Disordering 3.1. Introduction 3.1.1. Kinetic Ordering 3.1.2. Kinetic Disordering 3.2. Crystal Symmetry 3.2.1. The Neumann-Curie Principle 3.2.2. Application of Group Theory 3.3. Optical Inhomogeneity of Crystals 3.3.1. Sector Zoning 3.3.2. Sub-Sector Zoning 3.3.3. Sector Zoning vs Sub-Sector zoning 3.3.4. Concentric Zoning 3.3.5. Anomalous Progression of Anomalous Birefringence 3.4. Kinetic Ordering and Crystal Structure 3.4.1. Experimental Analyses 3.4.2. Desymmetrization by X-Ray Diffraction 3.4.3. Kinetic Ordering and the Optical Indicatrix 3.4.4. Kinetic Ordering and Anomalous Pleochroism 3.4.5. Metastability of Kinetic Ordering 3.4.6. Kinetic Ordering vs. Structure of the Growing Surface 3.4.7. Relaxation by Diffusion 3.5. Factors Affecting Growth Ordering 3.5.1. Crystal Composition 3.5.2. Composition of Growth Medium 3.5.3. Temperature and Pressure 3.5.4. Growth Rate 3.5.5. Hydrodynamics and Mass Transfer 4. Heterogeneous Crystals 4.1. Optics of Heterogeneous Crystals 4.2. Optically Homogeneous Systems 4.2.1. Inclusions 4.2.2. Optically Homogeneous Heterostructures 4.2.3. Heterostructures of Polytype Modifications 4.2.4. The Reverse Problem for the Polytype Intergrowths 4.2.5. Polysynthetic Twinning 4.2.6. Ex-Solution Structures 4.2.7. Syntaxy 4.2.8. Chaotic Misorientation of Components 4.3. Optically Heterogeneous Systems 4.3.1. Introduction 4.3.2. Isogyres 4.3.3. Isochromes 4.3.4. Modeling Distorted Conoscopic Figures 4.3.5. Calculation of the Distorted Conoscopic Figures: Some Examples 4.3.6. Distorted Conoscopic Figures as a Characteristic of Crystal Inhomogeneity 4.4. Heterogeneity at Different Length Scales 5. Superimposition of Optical Anomalies 5.1. General Remarks 5.2. Internal Stress 5.2.1. Composit
Erscheint lt. Verlag | 16.5.2007 |
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Zusatzinfo | VII, 277 p. 38 illus., 22 illus. in color. |
Verlagsort | Dordrecht |
Sprache | englisch |
Themenwelt | Naturwissenschaften ► Chemie |
Naturwissenschaften ► Geowissenschaften ► Mineralogie / Paläontologie | |
Naturwissenschaften ► Physik / Astronomie ► Atom- / Kern- / Molekularphysik | |
Naturwissenschaften ► Physik / Astronomie ► Festkörperphysik | |
Technik ► Maschinenbau | |
Schlagworte | Crystal • crystallography • crystals • Diffusion • Mineralogy • Modeling • Optical Anomolies • Optics • symmetry • X-ray analysis |
ISBN-10 | 1-4020-5353-3 / 1402053533 |
ISBN-13 | 978-1-4020-5353-5 / 9781402053535 |
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