The structure of a growth or an etch front on a surface is not only a subject of great interest from the practical point of view but also is of fundamental scientific interest. Very often surfaces are created under non-equilibrium conditions such that the morphology is not always smooth. In addition to a detailed description of the characteristics of random rough surfaces, Experimental Methods in the Physical Sciences, Volume 37, Characterization of Amorphous and Crystalline Rough Surface-Principles and Applications will focus on the basic principles of real and diffraction techniques for quantitative characterization of the rough surfaces. The book thus includes the latest development on the characterization and measurements of a wide variety of rough surfaces. The complementary nature of the real space and diffraction techniques is fully displayed. Key Features* An accessible description of quantitative characterization of random rough surfaces and growth/etch fronts* A detailed description of the principles, experimentation, and limitations of advanced real-space imaging techniques (such as atomic force microscopy) and diffraction techniques (such as light scattering, X-ray diffraction, and electron diffraction)* Characterization of a variety of rough surfaces (e.g., self-affine, mounded, anisotropic, and two-level surfaces) accompanied by quantitative examples to illustrate the essence of the principles* An insightful description of how rough surfaces are formed* Presentation of the most recent examples of the applications of rough surfaces in various areas
Author(s): Yiping Zhao, Gwo-Ching Wang and Toh-Ming Lu (Eds.)
Series: Experimental Methods in the Physical Sciences 37
Edition: 1
Publisher: Elsevier, Academic Press
Year: 2001
Language: English
Pages: 1-417
Tags: Физика;Периодика по физике;Experimental Methods in the Physical Sciences;
Content:
Volumes in series: Experimental methods in the physical sciences
Pages xi-xiii
Preface
Pages xv-xvii
Yiping Zhao, Gwo-Ching Wang, Toh-Ming Lu
1. Introduction Original Research Article
Pages 1-5
2. Statistical nature of rough surfaces Original Research Article
Pages 7-32
3. Examples of random rough surfaces Original Research Article
Pages 33-61
4. Real-space surface profiling techniques Original Research Article
Pages 63-82
5. Effects of finite tip and sample sizes Original Research Article
Pages 83-102
6. Diffraction techniques — fundamentals Original Research Article
Pages 103-132
7. Diffraction from random rough surfaces Original Research Article
Pages 133-156
8. Diffraction techniques — Experimentation Original Research Article
Pages 157-177
9. Self-affine fractal surfaces Original Research Article
Pages 179-210
10. Mounded surfaces Original Research Article
Pages 211-221
11. Anisotropic surfaces Original Research Article
Pages 223-240
12. Non-Gaussian surfaces Original Research Article
Pages 241-254
13. Two-dimensional fractal surfaces Original Research Article
Pages 255-272
14. Transition to multilayer structures Original Research Article
Pages 273-302
15. Transmission diffraction and fracts Original Research Article
Pages 303-308
16. Effects of surface roughness: Examples Original Research Article
Pages 309-351
Appendix A Growth dynamics
Pages 353-379
Appendix B Time evolution of the interface width in the edwards-wilkinson equation
Pages 381-382
Appendix C Effect of different functional forms of the scaling function on the shape of the diffraction profile
Pages 383-386
Appendix D Joint distributions of random processes with non-gaussian height distributions
Pages 387-389
Appendix E Height difference function C(k⊃, r) for different height distributions
Pages 391-397
Appendix F A perturbative solution of sine-gorden equation
Pages 399-401
Appendix G Speckle
Pages 403-406
Appendix H Diffraction of an ultrafast radiation pulse
Pages 407-409
Index
Pages 411-417