1. Edition - August 2010
139.- Euro
2010. XXIV, 342 Pages, Hardcover
193 Fig. (17 Colored Fig.), 38 Tab. 
- Handbook/Reference Book -
ISBN-10: 3-527-32593-X
ISBN-13: 978-3-527-32593-1 - Wiley-VCH, Weinheim






Content

Sample Chapter



Short description
An international team of experts presents the current methods and the latest applications in producing semiconductors and dielectrics by bulk crystal growth technology.

From the contents
Preface

PART I: Basic Concepts in Crystal Growth Technology

THERMODYNAMIC MODELING OF CRYSTAL-GROWTH PROCESSES
Introduction
General Approach of Thermodynamic Modeling
Crystal Growth in the System Si-C-O-Ar (Example 1)
Crystal Growth of Carbon-Doped GaAs (Example 2)
Summary and Conclusions
MODELING OF VAPOR-PHASE GROWTH OF SiC AND AlN BULK CRYSTALS
Introduction
Model Description
Results and Discussions
Conclusions
ADVANCED TECHNOLOGIES OF CRYSTAL GROWTH FROM MELT USING VIBRATIONAL INFLUENCE
Introduction
Axial Vibrational Control in Crystal Growth
AVC-Assisted Czochralski Method
AVC-Assisted Bridgman Method
AVC-Assisted Floating Zone Method
Conclusions

PART II: Semiconductors

NUMERICAL ANALYSIS OF SELECTED PROCESSES IN DIRECTIONAL SOLIDIFICATION OF SILICON FOR PHOTOVOLTAICS
Introduction
Directional Solidification Method
Crystallization Process
Impurity Incorporation in Crystals
Summary
CHARACTERIZATION AND CONTROL OF DEFECTS IN VCz GaAs CRYSTALS GROWN WITHOUT B2O3 ENCAPSULANT
Introduction
Retrospection
Crystal Growth Without B2O3 Encapsulant
Inclusions, Precipitates and Dislocations
Residual Impurities and Special Defect Studies
Electrical and Optical Properties in SI GaAs
Boron in SC GaAs
Outlook on TMF-VCz
Conclusions
THE GROWTH OF SEMICONDUCTOR CRYSTALS (Ge, GaAs) BY THE COMBINED HEATER MAGNET TECHNOLOGY
Introduction
Selected Fundamentsals
TMF Generation in Heater-Magnet Modules
The HMM Design
Numerical Measurements
Growth Results under TMF
Conclusions and Outlook
MANUFACTURING OF BULK AlN SUBSTRATES
Introduction
Modeling
Experiment
Results and Discussion
Conclusions
INTERACTIONS OF DISLOCATIONS DURING EPITAXIAL GROWTH OF SiC AND GaN
Introduction
Classification, Nomenclature and Characterization of Dislocations in SiC and GaN
Conversion of Basal Plane Dislocations During SiC Epitaxy
Reduction of Dislocations During Homoepitaxy of GaN
Conclusions
LOW-TEMPERATURE GROWTH OF TERNARY III-V SEMICONDUCTOR CRYSTALS FROM ANTIMONIDE-BASED QUATERNARY MELTS
Introduction
Crystal Growth from Quaternary Melts
Synthesis and Bulk Crystal Growth
Conclusion
MERCURY CADMIUM TELLURIDE (MCT) GROWTH TECHNOLOGY USING ACRT AND LPE
Introduction
Bridgman/ACRT Growth of MCT
Liquid Phase Epitaxy of MCT
THE USE OF A PLATINUM TUBE AS AN AMPOULE SUPPORT IN THE BRIDGMAN GROWTH OF BULK CZT CRYSTALS
Introduction
The Importance of the Solid/Liquid Interface
Approaches for Crystal Growth Using Ampoule Support
Results and Discussions
Conclusions

PART III: Dielectrics

MODELING AND OPTIMIZATION OF OXIDE CRYSTAL GROWTH
Introduction
Radiative Heat Transfer (RHT)
Numerical Model
Results and Discussion
Conclusions
ADVANCED MATERIAL DEVELOPMENT FOR INERTIAL FUSION ENERGY (IFE)
Introduction
Production of Nd:Phosphate Laser Glass and KDP Frequency-Conversion Crystals
Yb:S-FAP Crystals
YCOB Crystals
Advanced Material Concepts for Power-Plant Designs
Summary
MAGNETO-OPTIC GARNET SENSOR FILMS: PREPARATION, CHARACTERIZATION, APPLICATION
Introduction
Bi-Substituted Garnets
LPE Deposition and Topological Film Properties
Applications
Conclusions
GROWTH TECHNOLOGY AND LASER PROPERTIES OF Yb-DOPED SESQUIOXIDES
Introduction
Structure and Physical Properties
Crystal Growth
Spectroscopic Characterization
Laser Experiments
Summary and Outlook
CONTINUOUS GROWTH OF ALKALI-HALIDES: PHYSICS AND TECHNOLOGY
Modern Requirements to Large Alkali-Halide Crystals
Conditions of Steady-State Crystallization in Conventional Melt-Growth Methods and in Their Modifications
Macrodefect Formation in AHC
Dynamics of Thermal Conditions during Continuous Growth
Advanced Growth-Control Algorithms
Summary
TRENDS IN SCINTILLATION CRYSTALS
Introduction
Novel Scintillation Materials
Scintillation Detectors for Image Visualization and Growth Techniques for Scintillation Crystals
High Spatial Resolution Scintillation Detectors
Conclusions

PART IV: Crystal Machining

CRYSTAL MACHINING USING ATMOSPHERIC PRESSURE PLASMA
Introduction
Plasma Chemical Vaporization Machining (PCVM)
Numerically Controlled Sacrificial Oxidation
Conclusions