Microelectromechanical systems
Label
Microelectromechanical systems
Name
Microelectromechanical systems
Actions
Incoming Resources
- Subject of14
- MOEMS modeling using the geometrical matrix toolbox, William C. Wilson, Gary M. Atkinson
- Patterning of thick parylene films by oxygen plasma for application as exploding foil initiator flyer material, by Eugene Zakar and Michael D. Grapes
- Demonstration of rthanol and JP-8 fuel atomization using micromachined silicon multiplexed electrosprays, by Israei Boniche and C. Mike Waits
- Non-destructive damping measurement for wafer-level packaged microelectromechanical system (MEMS) acceleration switches, Ryan Knight and Evan Cheng
- Design and fabrication of a strain-powered microelectromechanical system (MEMS) switch, Cory R Knick and Christopher J Morris
- Power for microsystems strategic technology initiative report on MAST mission power requirements, Brian Morgan and Sarah Bedair
- Fabrication and testing of a novel MEMS rotational thermal actuator, Danny Gee and Luke Currano
- Ku-band radio frequency microelectromechanical system enabled electronically scanned antenna, Ronald G. Polcawich [and others]
- Parametric approach to determining the optimum geometry for PZT MEMS switches intended for digital applications, Robert Proie [and others]
- Correlation of radiation dosage with mechanical properties of thin films, R.L. Newton
- Novel on-wafer radiation pattern measurement technique for MEMS actuator based reconfigurable patch antennas, Rainee N. Simons
- Reconfigurable array antenna using Microelectromechanical Systems (MEMS) actuators, Rainee N. Simons, Donghoon Chun and Linda P.B. Katehi
- Thermal characterization of thin films for MEMS applications, by David J. Howe and Brian Morgan
- A piezoelectric MEMS microphone based on lead zirconate titanate (PZT) thin films, Ronald G. Polcawich