Exploring Scanning Probe Microscopy with Mathematica [Hardcover]

Dror Sarid (Author)

Book Description

Publication Date: November 10, 1997 | ISBN-10: 0471168181 | ISBN-13: 978-0471168188 | Edition: 1

This book/software edition provides a complete set of computational models that describe the physical phenomena associated with scanning tunneling microscopy, atomic force microscopy, and related technologies. Its self-contained presentation spares researchers the valuable time spent hunting through the technical literature in search of prior theoretical results required to understand the models presented. Mathematica code for all examples is included both in the book and at the accompanying ftp site, affording the freedom to change, at will, the values and parameters of specific problems or even modify the programs themselves to suit various modeling needs.

Exploring Scanning Probe Microscopy with Mathematica is both a solid professional reference and an advanced-level text, beginning with scanning probe microscopy basics and moving on to cutting-edge techniques, experiments, and theory. In the section devoted to atomic force microscopy, Dr. Sarid describes the mechanical properties of cantilevers, atomic force microscope tip-sample interactions, and cantilever vibration characteristics. This is followed by an in-depth treatment of theoretical and practical aspects of tunneling phenomena, including metal-insulator-metal tunneling and Fowler-Nordheim field emission. The final section features chapters covering density of states in arbitrary dimensions, quantum wells and dots, and electrostatics.

Editorial Reviews

From the Publisher

A collection of self-contained, interactive and computational examples from the field of scanning probe microscopy and related technologies using Mathematica notebooks. This book allows users to work with interactive models change the values and parameters of specific problems.

From the Back Cover

This book/software edition provides a complete set of computational models that describe the physical phenomena associated with scanning tunneling microscopy, atomic force microscopy, and related technologies. Its self-contained presentation spares researchers the valuable time spent hunting through the technical literature in search of prior theoretical results required to understand the models presented. Mathematica code for all examples is included both in the book and at the accompanying ftp site, affording the freedom to change, at will, the values and parameters of specific problems or even modify the programs themselves to suit various modeling needs.

Exploring Scanning Probe Microscopy with Mathematica is both a solid professional reference and an advanced-level text, beginning with scanning probe microscopy basics and moving on to cutting-edge techniques, experiments, and theory. In the section devoted to atomic force microscopy, Dr. Sarid describes the mechanical properties of cantilevers, atomic force microscope tip-sample interactions, and cantilever vibration characteristics. This is followed by an in-depth treatment of theoretical and practical aspects of tunneling phenomena, including metal-insulator-metal tunneling and Fowler-Nordheim field emission. The final section features chapters covering density of states in arbitrary dimensions, quantum wells and dots, and electrostatics.

See all Editorial Reviews

Product Details

• Hardcover: 262 pages
• Publisher: Wiley-Interscience; 1 edition (November 10, 1997)
• Language: English
• ISBN-10: 0471168181
• ISBN-13: 978-0471168188
• Product Dimensions: 9.6 x 6.4 x 0.8 inches
• Shipping Weight: 1.3 pounds
• Average Customer Review: 4.0 out of 5 stars  See all reviews (1 customer review)
• Amazon Best Sellers Rank: #4,229,140 in Books (See Top 100 in Books)

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Customer Reviews

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4 of 4 people found the following review helpful:

4.0 out of 5 stars A ready made computational lab - all your own, June 18, 2004

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W Boudville (Terra, Sol 3) - See all my reviews
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This review is from: Exploring Scanning Probe Microscopy with Mathematica (Hardcover)

There is a considerable body of theory behind Atomic Force Microscopy/STM. In how it works, and in the modelling of the potential energy at a surface under study. This can be a problem for those who want to use an AFM, and who might perhaps be new to the field. At the modelling level, the book shows the multitude of possible models, and their associated parameters, that can be used. This presents an obstacle. Because typically, you have to start by building those computational model code bodies from scratch, based on guidelines in books or papers.

This is especially a problem if you are an experimentalist, where your interests are not necessarily in modelling.

Sarid does the reader a huge favour. By offering not just equations, but functional code, implemented in a Mathematica framework, that you can tweak to your delight. Basically, the book and its website give you a computational lab, fully equipped.

The book also shows how Mathematica has become indispensible in research, by providing the necessary computational framework.