- Coupling of MEMS ultrasonic transducers Dept. Electrical and Computer Engineering
- Design Considerations For A Non-contact, Inductively Coupled Lamb Wave Transducer
- ROBUST CAPACITIVE MEMS ULTRASONICS TRANSDUCERS FOR LIQUID IMMERSION D.W. Greve and J.J. Neumann
- Modeling of impedance of cell-covered electrodes D.W. Greve and X. Huang
- 39-651 Special topics course: Computer-aided instrumentation and characterization
- Lamb Waves in Plate Girder Geometries D.W. Greve,1
- Excitation of longitudinal and Lamb waves in plates by edge-mounted transducers
- MEMS ultrasonic transducers for the testing of Abstract--Arrays of capacitive diaphragm ultrasonic transducers could potentially be used for non-destructive
- Impedance-based Biosensors D.W. Greve,1
- Characterization and Noise Analysis of Capacitive MEMS Acoustic Emission Transducers
- Experiments in Ultrasonic Flaw Detection using a MEMS Transducer Akash Jaina
- Abstract--We report electrical characterization of micromachined polysilicon capacitive diaphragms for use as ultrasonic transducers. Admittance measurements yield insight into the resonant behavior and also the damping
- A MEMS Transducer for Ultrasonic Flaw Detection Akash Jain***a
- A MEMS Ultrasonic Transducer for Monitoring of Steel Structures Akash Jain***a
- THEORY OF A DOUBLE-DIAPHRAGM MEMS ULTRASONIC TRANSDUCER Department of Electrical and Computer Engineering, Carnegie Mellon University, Pittsburgh, PA, USA
- Comparison of Piezoresistive and Capacitive Ultrasonic Transducers
- Resonant capacitive MEMS acoustic emission transducers (Smart Materials and Structures, accepted for publication)
- A MEMS transducer for detection of acoustic emission events
- Adapting a cMUT transducer to detect acoustic D. Ozevin and S.P. Pessiki
- Generation and detection of guided waves using PZT wafer transducers
- Transition from Lamb waves to longitudinal waves in plates D W Greve1,4
- Structural health monitoring with an inductively coupled (wireless) Lamb wave
- Lamb Wave Behavior in Bridge Girder Geometries I. J. Oppenheima*
- A Wire-Guided Transducer for Acoustic Emission Sensing Ian T. Neilla
- Impedance Array Studies of Mammalian Cell Growth Duc D. Nguyen and Michael M. Domach
- Development of Active Matrix Biosensor Array for Cell Screening
- file:///C:/Documents%20and%20Settings/Administrator/My%20Documents/SEMINARS/FEMLAB%20seminar/FEMLAB/Slide01.JPG file:///C:/Documents%20and%20Settings/Administrator/My%20Documents/SEMINARS/FEMLAB%20seminar/FEMLAB/Slide01.JPG [11/10/2005 1:02:38 PM]
- Development of microsensors for chloride concentration in concrete
- Structural Tests using a MEMS Acoustic Emission Sensor Irving J. Oppenheima*
- Resonant Type MEMS Transducers Excited by Two Acoustic Emission Simulation Techniques
- Simulation and Testing of Transducers for Lamb Wave Generation J.H. Nieuwenhuis1,2
- MEMS PHASED ARRAY DETECTION IN CONTACT WITH SOLIDS D.W. Greve and A. Jain
- An Inductively Coupled (Wireless) Lamb Wave Transducer D.W. Greve,1
- INVITED REVIEW PAPERS 1. "UHV/CVD Epitaxy of Si and GexSi1-x," M. Racanelli and D.W. Greve, Journal of
- Interaction of defects with Lamb waves in complex Department of Electrical and Computer Engineering
- Oppenheim, Jain, Greve 1 Submitted for "Identification of Existing and Emerging Microelectromechanical
- Impedance Based Biosensor Array for Monitoring Mammalian Cell X. Huang and D.W. Greve
- Modes and damping in cMUT transducers for acoustic emission
- Energy Scavenging for Sensor Applications using Structural Strains Joshua P. Ayersa
- Design and Testing of a MEMS Acoustic Emission Sensor System David W. Grevea
- 18-819M Special topics in Applied Physics: Ultrasonic Devices and Applications
- The Proceeding of 4th China-Japan-US Symposium on Structural Control and Monitoring Oct.16-17, 2006
- Inductive coupling for wireless Lamb wave and longitudinal wave transducers
- A MEMS Phased Array Transducer for Ultrasonic Flaw Detection Dept. Electrical and Computer
- Development of a MEMS Acoustic Emission Sensor System David W. Greve a
- Fatigue Crack Detection in a Plate Girder Using Lamb Waves I. J. Oppenheima*
