Proposed New Course

 

ME 653 /Nano 652

 

Title: Design and Fabrication of Micro and Nanoelectromechanical Systems

 

Catalog Description: This course covers advanced topics in the design, modeling and fabrication of nano and micro electromechanical systems.  The materials will be broad and multidisciplinary including:  review of nano and microelectromechanic systems, design principles and methodologies, dimensional analysis and scaling, thermal, transport, fluids, microelectronics, feedback control, noises and electromagnetism at the micro and nanoscales; the modeling of a variety of new MEMS/NEMS devices; and alternative approaches to the continuum mechanics theory. The goal will be achieved through a combination of lectures, case studies, individual homework assignments, and design projects carried out in teams.

 

 

Prerequisites: ME 573

Cross-listing:               ___________________________(show cross-listed course number(s)

Grading method:         _ü__ ABCF                        ___ Pass/Fail             ___ Other

Credits:                                           _ü_ 3 credits    ___ Other

For Graduate Credit   _ü_ Yes      ___ No             ___ Not for Dept Majors             ___ Other

Objective: Micro and nano electromechanical devices (MEMS/NEMS), such as pressure sensors, accelerometers, rate gyroscopes, and high frequency resonators, require knowlege of a broad range of disciplines, from microfabrication to mechanics to electromagnetism. A goal throughout the course will be to develop some physical intuition for the fundamental phenomena at these small scales, expose the students with a variety of domain knowledge and the tools necessary, and also the design methodologies. Through team work, the students will learn how to design a micro or nano system to meet a set of specifications using a realistic micro or nano fabrication process. Student exercises will develop skills in locating suitable information from libraries and electronic archives, visualizing of structures created with micro/nano fabrication process sequences, creating of low-order dynamical device models, and inserting of those models into the simulation of complete electronic measurement circuits.

 

 

Syllabus:

1. Intro to NEMS and MEMS

2. Micro fabrication process review

3. Nano fabrication processes

4. Design principles and methodologies, lumped Element Modeling

5. Continuum mechanics and stochastic methods

6. Dissipation and thermal energy

7. Fluids and transport in fluids

8. Microelectronics

9. Feedback control

10. Noise

11. Device Packaging and Integration

12. Nano sensors and actuators

13. Bio NEMS, High Q NEMS devices

Final Student Presentation

 

Textbook:

S. Senture, Microsystems Design

 

Mode of Delivery          _ü_ Class   ___ Online        ___ Modules             ___ Other

Department Ownership: ME

When first offered:                             Fall, 2006                                                                                  

Department Point of Contact:             Prof. Yong Shi                                                                            

Date approved by individual school curriculum committee: Wed. April 5, 2006                                  

 

Grading

      15% on homework

      25 % on midterm quiz

      35% on the final project

      25% Final Exam