New York ; , : Oxford University Press, , 2023

0-19-773261-5

1-280-44178-X

0-19-802281-6

9786610441785

0-19-534469-3

1-60256-628-3

1 online resource (xiii,263p. ) : ill

Oxford series in optical and imaging sciences ; ; 5

Oxford scholarship online

502.82

Scanning force microscopy

Surfaces (Physics)

Inglese

Previous edition: 1991.

Previously issued in print: 1994.

Includes bibliographical references and index.

Intro -- Contents -- PREFACE TO THE REVISED EDITION -- PREFACE -- PART ONE. LEVERS AND NOISE -- Chapter 1 Mechanical Properties of Levers -- 1.1. Introduction -- 1.2. Stress and Strain -- 1.3. Moments -- 1.4. Spring Constant -- 1.5. The Rayleigh Solution to a Vibrating Lever -- 1.6. The Classical Solution to a Vibrating Lever -- 1.7. Normal Modes -- 1.8. Lumped Systems -- 1.9. Examples -- 1.10. Summary -- Chapter 2 Resonance Enhancement -- 2.1. Introduction -- 2.2. Bimorph Driver -- 2.3. Effective Spring Constant -- 2.4. Bimorph-Driven Lever -- 2.5. Sample-Driven Lever -- 2.6. Tip-Driven Lever -- 2.7. Summary -- Chapter 3 Sources of Noise -- 3.1. Introduction -- 3.2. General Discussion of Noise -- 3.3. Shot Noise -- 3.4. Resistor Johnson Noise -- 3.5. Laser Intensity Noise -- 3.6. Laser Phase Noise -- 3.7. Thermally Induced Lever Noise -- 3.8. Bimorph Noise -- 3.9. Lever Noise-Limited SNR -- 3.10. Experimental Characterization of Noise -- 3.11. Summary -- PART TWO. SCANNING FORCE

MICROSCOPES -- Chapter 4 Tunneling Detection System -- 4.1. Introduction -- 4.2. Theory -- 4.3. Perpendicular Arrangement -- 4.4. Cross Arrangement -- 4.5. Parallel Arrangement -- 4.6. Serial Arrangement -- 4.7. Single-Lever Arrangement -- 4.8. Summary -- Chapter 5 Capacitance Detection System -- 5.1. Introduction -- 5.2. Theory -- 5.3. Noise Considerations -- 5.4. Performance of Systems -- 5.5. Summary -- Chapter 6 Homodyne Detection System -- 6.1. Introduction -- 6.2. Theory -- 6.3. Noise Considerations -- 6.4. System Performance -- 6.5. Summary -- Chapter 7 Heterodyne Detection System -- 7.1. Introduction -- 7.2. Theory -- 7.3. Noise Considerations -- 7.4. Performance -- 7.5. Summary -- Chapter 8 Laser-Diode Feedback Detection System -- 8.1. Introduction -- 8.2. Theory -- 8.3. Noise Considerations -- 8.4. Performance -- 8.5. Summary.

Chapter 9 Polarization Detection System -- 9.1. Introduction -- 9.2. Theory -- 9.3. Noise Considerations -- 9.4. Performance -- 9.5. Summary -- Chapter 10 Deflection Detection System -- 10.1. Introduction -- 10.2. Theory -- 10.3. Noise Considerations -- 10.4. Performance -- 10.5. Summary -- PART THREE. SCANNING FORCE MICROSCOPY -- Chapter 11 Electric Force Microscopy -- 11.1. Introduction -- 11.2. Basic Concepts -- 11.3. Examples -- 11.4. Principles of Operation -- 11.5. Noise Considerations -- 11.6. Applications -- 11.7. Performance -- 11.8. Summary -- Chapter 12 Magnetic Force Microscopy -- 12.1. Introduction -- 12.2. Basic Concepts -- 12.3. Examples -- 12.4. Principles of Operation -- 12.5. Noise Considerations -- 12.6. Applications -- 12.7. Performance -- 12.8. Summary -- Chapter 13 Atomic Force Microscopy -- 13.1. Introduction -- 13.2. Intermolecular Microscopic Interactions -- 13.3. Intermolecular Macroscopic Interactions -- 13.4. Lever-Tip-Sample Contact Interactions -- 13.5. Lever-Tip-Sample Noncontact Interactions -- 13.6. Experimental Results for the Contact Mode -- References -- Index.

Includes information about the mapping of a variety of forces across surfaces, including basic theory, instrumentation, and applications. This book also includes research in SFM and a bibliography. It will be useful for academic and industrial researchers using SFM.

New York, NY : , : Springer New York : , : Imprint : Springer, , 2014

1-4939-0626-7

1 online resource (328 p.)

Springer Proceedings in Mathematics & Statistics, , 2194-1017 ; ; 76

512.24

Commutative algebra

Commutative rings

Algebraic geometry

Commutative Rings and Algebras

Algebraic Geometry

Inglese

Description based upon print version of record.

Includes bibliographical references at the end of each chapters.

Preface -- Differential Graded Commutative Algebra -- Secant Varieties -- Fat Points and Symbolic Powers -- An Introduction to Stanley-Reisner Rings -- Combinatorial Resolutions -- Geometric Properties of the Tor Algebra Structure for Trivariate Monomial Ideals -- Interactions Between Linear Algebra and Algebraic Geometry -- Fat Points -- Primary Decomposition of Certain Permanental Ideals.

Commutative algebra, combinatorics, and algebraic geometry are thriving areas of mathematical research with a rich history of interaction. Connections Between Algebra, Combinatorics, and Geometry contains lecture notes, along with exercises and solutions, from the Workshop on Connections Between Algebra and Geometry held at the University of Regina from May 29-June 1, 2012. It also contains research and survey papers from academics invited to participate in the companion Special Session on Interactions Between Algebraic Geometry and Commutative Algebra, which was part of the CMS Summer Meeting at the University of Regina held June 2–3, 2012, and the meeting Further Connections Between Algebra and Geometry, which was held at the North Dakota State University, February 23, 2013. This volume highlights three mini-courses in the areas of

commutative algebra and algebraic geometry: differential graded commutative algebra, secant varieties, and fat points and symbolic powers. It will serve as a useful resource for graduate students and researchers who wish to expand their knowledge of commutative algebra, algebraic geometry, combinatorics, and the intricacies of their intersection. .