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Title:
Nano- and Micro-Electromechanical Systems: Fundamentals of Nano- and Microengineering |
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Division: Applied & Industrial / CRC Press / 英文版 |
Author/Editor: Sergey E. Lyshevski, Sergey Edward Lyshevski Star:  |
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ISBN: 0849309166 |
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Introduce Date: 2006年08月23日17:06 , Release Date: 2006年08月24日01:31 |
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Introducer: huanghefirst , Rate: 14/298 |
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| Description: |
Nano- and Micro-Electromechanical Systems: Fundamentals of Nano- and Microengineering
By: Sergey E. Lyshevski Sergey Edward Lyshevski
ISBN: 0849309166
Publisher: CRC - 2000-09-28
Hardcover | 1 Edition | 352 Pages | List Price: $99.95 (USD)
Product Dimensions: 9.63 x 6.46 x 0.93 inches
Book Description
Nanoengineering and technology will change the very nature of most human-made structures, devices, and systems. Developing the basic theoretical foundations needed to design, develop, analyze, and prototype high-performance micro- and nano-mechanical systems (MEMS and NEMS), this text brings together the various methods, techniques, and technologies needed to solve a wide array of engineering problems. With interdisciplinary synergism, it focuses on basic studies of phenomena and processes in NEMs and MEMs, synthesis of nano-and micro-scale devices and systems, designing components, and much more. The author discusses the application and impact of these structures, devices, and systems to a variety of fields, including information technology, medicine, the environment, power systems, and national security.
1. Nano- and Microengineering,
and Nano- and Microtechnologies
1.1. Introduction
1.2. Biological Analogies
1.3. Nano- and Microelectromechanical Systems
1.4. Applications of Nano- and Microelectromechanical Systems
1.5. Nano- and Microelectromechanical Systems
1.6. Introduction to MEMS Fabrication, Assembling, and Packaging
2. Mathematical Models and Design of Nano- and
Microelectromechanical Systems
2.1. Nano- and Microelectromechanical Systems Architecture
2.2. Electromagnetics and its Application For Nano- and
Microscale Electromechanical Motion Devices
2.3. Classical Mechanics and its Application
2.3.1. Newtonian Mechanics
2.3.2. Lagrange Equations of Motion
2.3.3. Hamilton Equations of Motion
2.4. Atomic Structures and Quantum Mechanics
2.5. Molecular and Nanostructure Dynamics
2.5.1. Schrödinger Equation and Wavefunction Theory
2.5.2. Density Functional Theory
2.5.3. Nanostructures and Molecular Dynamics
2.6. Molecular Wires and Molecular Circuits
2.7 Thermoanalysis and Heat Equation
3. Structural Design, Modeling, and Simulation
3.1. Nano- and Microelectromechanical Systems
3.1.1. Carbon Nanotubes and Nanodevices
3.1.2. Microelectromechanical Systems and Microdevices
3.2. Structural Synthesis of Nano- and Microelectromechanical
Actuators and Sensors
3.2.1. Configurations and Structural Synthesis of Motion Nanoand
Microstructures (actuators and Sensors)
3.2.2. Algebra of Sets
3.3. Direct-Current Micromachines
3.4. Induction Motors
3.4.1. Two-Phase Induction Motors
3.4.2. Three-Phase Induction Motors
3.5. Microscale Synchronous Machines
3.5.1. Single-Phase Reluctance Motors
3.5.2. Permanent-Magnet Synchronous Machines
© 2001 by CRC Press LLC
3.6. Microscale Permanent-Magnet Stepper Motors
3.6.1. Mathematical Model in the Machine Variables
3.6.2. Mathematical Models of Permanent-Magnet Stepper Motors
in the Rotor and Synchronous Reference Frames
3.7. Nanomachines: Nanomotors and Nanogenerators
4. Control of Nano- and Microelectromechanical Systems
4.1. Fundamentals of Electromagnetic Radiation and Antennas
in Nano- and Microscale Electromechanical Systems
4.2. Design of Closed-Loop Nano- and Microelectromechanical
Systems Using the Lyapunov Stability Theory
4.3. Introduction to Intelligent Control of Nano- and
Microelectromechanical Systems
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