C. Julian Chen
Due to its nondestructive imaging power, scanning tunneling microscopy has found major applications in the fields of physics, chemistry, engineering, and materials science. This book provides a comprehensive treatment of scanning tunneling and atomic force microscopy, with full coverage of the
imaging mechanism, instrumentation, and sample applications. The work is the first single-author reference on STM and presents much valuable information previously available only as proceedings or collections of review articles. It contains a 32-page section of remarkable STM images, and is
organized as a self-contained work, with all mathematical derivations fully detailed. As a source of background material and current data, the book will be an invaluable resource for all scientists, engineers, and technicians using the imaging abilities of STM and AFM. It may also be used as a
textbook in senior-year and graduate level STM courses, and as a supplementary text in surface science, solid-state physics, materials science, microscopy, and quantum mechanics.
1. Overview
PART I: Imaging Mechanism
2. Atom-Scale Tunneling
3. Tunneling Matrix Elements
4. Wavefunctions at Surfaces
5. Imaging Crystalline Surfaces
6. Imaging Atomic States
7. Atomic Forces and Tunneling
8. Tip-Sample Interactions
PART II:
Instrumentation
9. Piezoelectric Scanner
10. Vibration Isolation
11. Electronics and Control
12. Coarse Positioner and SM Design
13. Tip Treatment
14. Scanning Tunneling Spectroscopy
15. Atomic Force Microscopy
16. Illustrative Examples
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C. Julian Chen is at IBM Thomas J. Watson Research Center.
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