Understanding Surface and Thin Film Science
portes grátis
Understanding Surface and Thin Film Science
Christensen, Thomas M.
Taylor & Francis Inc
12/2022
356
Dura
Inglês
9781482233032
15 a 20 dias
848
Descrição não disponível.
1. Surfaces and Thin Films 2. Vacuum and Plasma Environments Part 1: Surfaces 3. Crystal Structure 4. Atomic Motion: Vibrations, Waves and Diffusion in Solids 5. Thermodynamics 6. Electrical, Magnetic, Optical, and Thermal Properties 7. Adsorbed Atoms on Surfaces Part 2: Thin Films 8. Overview of Thin Film Growth 9. Physical Vapor Deposition 10. Chemical Vapor Deposition Part 3: Characterization of Surfaces and Thin Films 11. Characterization: Overview and Imaging Techniques 12. Characterization: Structural Techniques 13. Characterization: Chemical and Elemental Techniques 14. Characterization: Electrical, Magnetic, and Optical Techniques 15. Characterization: Thermodynamic, Thermal, and Mechanical Techniques
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
surface;surfaces;thin films;vacuum;plasma;vacuum and plasma environments;crystal structure;atomic motion;vibrations;waves;diffusion;solids;thermodynamics;electrical properties;magnetic properties;optical properties;thermal properties;adsorbed atoms;thin film growth;Physical Vapor Deposition;Chemical Vapor Deposition;Imaging Techniques;Structural Techniques;Chemical Techniques;Elemental Techniques;Electrical Techniques;Magnetic Techniques;Optical Techniques;Thermodynamic Techniques;Thermal Techniques;Mixed Phase Regions;Mechanical Techniques;BLS.;Scanning Probe Microscopies;Incident Ion;Spin Waves;Sputter Yield;Sputter Deposition;Target Atom;Gibbs Free Energy;Magnetic Force;Incident Electron Beam;Dispersion Relation;Electron Energy Loss Spectroscopy;Thin Film Samples;Deposition Rate;Film Growth;Brillouin Zone;Reflection High Energy Electron Diffraction;Elastic Waves;Low Energy Electron Diffraction;Auger Electron Spectroscopy;Incident Electron;Surface Diffusion
1. Surfaces and Thin Films 2. Vacuum and Plasma Environments Part 1: Surfaces 3. Crystal Structure 4. Atomic Motion: Vibrations, Waves and Diffusion in Solids 5. Thermodynamics 6. Electrical, Magnetic, Optical, and Thermal Properties 7. Adsorbed Atoms on Surfaces Part 2: Thin Films 8. Overview of Thin Film Growth 9. Physical Vapor Deposition 10. Chemical Vapor Deposition Part 3: Characterization of Surfaces and Thin Films 11. Characterization: Overview and Imaging Techniques 12. Characterization: Structural Techniques 13. Characterization: Chemical and Elemental Techniques 14. Characterization: Electrical, Magnetic, and Optical Techniques 15. Characterization: Thermodynamic, Thermal, and Mechanical Techniques
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
surface;surfaces;thin films;vacuum;plasma;vacuum and plasma environments;crystal structure;atomic motion;vibrations;waves;diffusion;solids;thermodynamics;electrical properties;magnetic properties;optical properties;thermal properties;adsorbed atoms;thin film growth;Physical Vapor Deposition;Chemical Vapor Deposition;Imaging Techniques;Structural Techniques;Chemical Techniques;Elemental Techniques;Electrical Techniques;Magnetic Techniques;Optical Techniques;Thermodynamic Techniques;Thermal Techniques;Mixed Phase Regions;Mechanical Techniques;BLS.;Scanning Probe Microscopies;Incident Ion;Spin Waves;Sputter Yield;Sputter Deposition;Target Atom;Gibbs Free Energy;Magnetic Force;Incident Electron Beam;Dispersion Relation;Electron Energy Loss Spectroscopy;Thin Film Samples;Deposition Rate;Film Growth;Brillouin Zone;Reflection High Energy Electron Diffraction;Elastic Waves;Low Energy Electron Diffraction;Auger Electron Spectroscopy;Incident Electron;Surface Diffusion
