Liwei Lin (Advisor)

This project aims to use the plastic deformation of single-crystal-silicon as the key process to make Angular Vertical Comb-drive (AVC) torsional microactuators using a simple three-mask process on silicon-on-insulator wafer and yet providing versatility for the potential applications in Optical MEMS (switches, bi-directional free-space laser communications), RF MEMS (variable capacitor), Image/display (head mount display) and the others.

Project end date: 07/30/08

Non-magnetic heaters are desirable for systems sensitive magnetic fields, such as micromachined gyroscopes using spin-polarized nuclei. The short-term objective of this project is to design and fabricate MEMS resistive heaters that will generate minimum magnetic field while under resistive heating to provide the heating source for the micromachined gyroscope using spin-polarized nuclei. The long-term goal of the project is the integration of the non-magnetic heater with other components to accomplish micromachined gyroscope using spin-polarized nuclei within the magnetic shielding...

The goal of this project is to make low-cost, low power, and reconfigurable electromagnetic-wave beam-formers for potential W-band applications such as car collision avoidance radar, wireless local network (LAN), and radio links. The beam-forming is realized by phased antenna array. This research project responds to the need for complete system-level integration of RF or millimeter-wave (MMW) systems. We will develop technologies for 3-D structures by industrial plastic molding and electroplating processes with integrated active/passive components and reconfigurable beam-formers....

Glass frit bonding is a largely popular method of encapsulating MEMS devices in the industry today. It's popularity is due to relatively low processing temperature, tunability of thermal coefficient of expansion, and hermetic sealing. However, glass frit bonding requires a large amount of space, sometimes as much as several times the size of the MEMS device itself. This attribute is largely responsible for limiting further scalability and miniaturization of individual dies. This research project aims (1) to take a deeper look into the shortcomings of the existing glass frit bonding...