Handbook of Thin Films.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Nalwa, Hari Singh
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Saint Louis : Elsevier Science & Technology, 2001.
Temas:
Thin films > Handbooks, manuals, etc.
Couches minces > Guides, manuels, etc.
Thin films
Handbooks and manuals
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Nanomaterials and Magnetic Thin Films; Copyright Page; Contents; About the Editor; List of Contributors; Volume Listing; Chapter 1. NANOIMPRINT TECHNIQUES; 1. Introduction; 2. Hot-Embossing Lithography; 3. Mold-Assisted Lithography; 4. Microcontact Printing; 5. Masters, Stamps, and Molds; 6. Sticking Challenge; 7. Applications; 8. Perspectives; Acknowledgments; References; Chapter 2. THE ENERGY GAP OF CLUSTERS, NANOPARTICLES, AND QUANTUM DOTS; 1. Introduction; 2. Experimental Techniques; 3. Theory; 4. Metals; 5. Semiconductors; 6. Unpassivated Silicon Particles.
  • 7. Passivated Silicon Particles8. Nanowires of Silicon; 9. Carbon Particles; 10. Thin Films of Particles; 11. Applications; References; Chapter 3. ELECTRONIC STATES IN GaAs-AlAs SHORT-PERIOD SUPERLATTICES: ENERGY LEVELS AND SYMMETRY; 1. Introduction; 2. Symmetry of Short-Period Superlattices; 3. Photoluminescence and Photoluminescence Excitation Spectra of Short-Period Superlattices; 4. Time Decay and Temperature Dependence of Photoluminescence and Photoluminescence Excitation Spectra; 5. Photoluminescence Spectrum under Hydrostatic Pressure.
  • 6. Short-Period Superlattices in Externally Applied Fields7. Ultra-Short-Period Superlattices; 8. Other Experimental Methods and Other Oriented Short-Period Superlattices; 9. Theoretical Research; 10. Application of Short-Period Superlattices; 11. Summary; Acknowledgment; References; Chapter 4. SPIN WAVES IN THIN FILMS, SUPERLATTICES AND MULTILAYERS; 1. General Introduction; 2. Spin Waves in Thin Films; 3. Spin Waves in Superlattices and Multilayers; 4. Discussion; 5. Concluding Remarks; Acknowledgments; References; Chapter 5. QUANTUM WELL INTERFERENCE IN DOUBLE QUANTUM WELLS; 1. Introduction.
  • 2. Single Quantum Wells3. Mechanisms for Exchange Coupling; 4. Symmetric Double Quantum Wells: Bound States; 5. Symmetric Double Quantum Wells: Resonant Scattering States; 6. Asymmetric Double Quantum Well Cu/Co/Ni/Co(100); 7. Asymmetric Double Quantum Wells Cu/Ni/Cu/Co(100) and Cu/Co/Cu/Co(100); 8. Discussion; 9. Concluding Remarks; Acknowledgments; Appendix A; Appendix B; Appendix C; Appendix D; Appendix E; Appendix F; Appendix G; Appendix H; References; Chapter 6. ELECTRO-OPTICAL AND TRANSPORT PROPERTIES OF QUASI-TWO-DIMENSIONAL NANOSTRUCTURED MATERIALS; 1. Introduction.
  • 2. Methods of Synthesis and Fabrication of Quasi-Two-Dimensional Nanostructured Materials3. Electronic States of the Idealized Quasi-Two-Dimensional Nanostructured Materials; 4. Quasi-Particle States in the Quasi-Two-Dimensional Structures; 5. Effect of Static External Electric and Magnetic Fields on the Quasi-Particle Energy Levels in the Q2D Systems; 6. Dynamics of the Lattice in Q2D Systems: Phonons and Electron-Phonon Interactions; 7. Theory of Quantum Transport in Q2D Systems; 8. Optical Properties of Q2D Nanostructured Materials; 9. Electron Raman Scattering in Q2D Systems.

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