Advances in crystal growth research /

The aim of this book is to provide a timely collection that highlights advances in current research of crystal growth ranging from fundamental aspects to current applications involving a wide range of materials. This book is published on the basis of lecture texts of the 11th International Summer Sc...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor Corporativo: International Summer School on Crystal Growth
Otros Autores: Sat�o, Kiyotaka, 1946-, Furukawa, Y. (Yoshinori), Nakajima, K. (Kazuo)
Formato: Electrónico Congresos, conferencias eBook
Idioma:Inglés
Publicado: Amsterdam ; New York : North-Holland, 2001.
Edición:1st ed.
Temas:
Crystal growth > Congresses.
Cristaux > Croissance > Congr�es.
SCIENCE > Physics > Crystallography.
Crystal growth
Congress
proceedings (reports)
Conference papers and proceedings
Conference papers and proceedings.
Actes de congr�es.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Advances in Crystal Growth Research; Copyright Page; Contents; Preface; Acknowledgements; Chapter 1. Crystal growth-Its significance for modern science and technology and its possible future applications; 1. Introduction; 2. Morphology and crystal growth; 3. Synthesis of single crystals; 4. Surface and interface; 5. Lattice defects; 6. Synthesis of dislocation-free crystals; 7. Vapor growth and epitaxy; 8. Computer simulation; 9. Biomineralization and biocrystallization; 10. Concluding remarks (future targets); Part 1: Understanding of Fundamental Aspects in Crystal Growth
  • Chapter 2. Fundamentals of phase field theory1. Introduction; 2. Monocomponent system; 3. Anisotropy; 4. Alloys; 5. Hydrodynamics; 6. Conclusions; Chapter 3. Generic mechanism of heterogeneous nucleation and molecular interfacial effect; 1. Introduction; 2. Nucleation barrier; 3. Nucleation kinetics; 4. Interfacial effects of foreign body and fluid molecules; 5. Heterogeneous two-dimensional nucleation growth; 6. General remarks and conclusions; Chapter 4. Challenges in crystal growth science and the microgravity tool; 1. Opportunities; 2. What is missing in crystal growth science?
  • 3. Surface processes vs. bulk diffusion and convection. Dendrites4. Pattern formation; 5. Ripening; 6. Detached growth; 7. Biomacromolecular crystallization; 8. Conclusion; Chapter 5. Surface step dynamics: basic concepts, theory and simulation; 1. Basic idea of step models; 2. Step dynamics in a vicinal face; 3. Relaxation of mesoscopic structures; Chapter 6. Surface step dynamics: experimental observations; 1. Introduction; 2. Experimental; 3. Equilibrium shape (macroscopic approach); 4. Thermal fluctuation of steps (microscopic approach); 5. Mechanism of mass transport for step fluctuation
  • 6. ConclusionChapter 7. Elementary growth process in semiconductor epitaxy-Molecular beam epitaxy as an example of epitaxy; 1. Introduction; 2. Incorporation diffusion length; 3. Intersurface diffusion; 4. Elementary growth processes; 5. Fabrication of microstructures; 6. Microchannel epitaxy by low angle incidence beam MBE; 7. Elimination of the growth on (111) facet adjacent to (001) facet; 8. Conclusions; Chapter 8. Atomistic simulation of epitaxial growth processes; 1. Introduction; 2. Computational methods; 3. Role of electrons on the surface; 4. Epitaxial growth simulation; 5. Summary
  • Part 2: Materials Design and Functionality of Advanced MaterialsChapter 9. Si bulk crystal growth: what and how?; 1. Introduction; 2. Magnetic field-applied crystal growth; 3. Actual system; 4. Summary; Chapter 10. Optimization of melt growth processes by experimental analysis and computer modeling; 1. Introduction; 2. Strategy of process optimization in crystal growth; 3. Important features of industrial melt growth processes; 4. Physico-chemical model; 5. Numerical treatment; 6. Verification of numerical models by model experiments; 7. Process optimization; 8. Conclusion

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