Advanced Packaging Technology Used in Fabricating a High-Temperature Silicon Carbide Pressure Sensor
Packaging Technology Designed, Fabricated, and Assembled for High-Temperature SiC Microsystems
Thin-Film Air-Mass-Flow Sensor of Improved Design Developed
Microfabricated Gas Sensors Demonstrated in Fire and Emission Applications
Silicon Carbide Nanotube Synthesized
Improved Silicon Carbide Crystals Grown From Atomically Flat Surfaces
Multiwavelength Pyrometer Developed for Use at Elevated Temperatures in Aerospace Applications
Collaboration of the NASA Glenn Research Center and Rolls-Royce Developed Thin Film Multilayered Dielectrics for Harsh Environments
Fiber-Optic Bragg Gratings and Optical Holography Compared as Vibration Detectors
High-Temperature Sprayable Phosphor Coating Developed for Measuring Surface Temperatures
Optical Tweezers Array and Nimble Tweezers Probe Generated by Spatial-Light Modulator
Mobile Sensor Technologies Being Developed
Rayleigh Scattering Diagnostic Used to Measure Velocity and Density Fluctuation Spectra
Microelectromechanical Systems (MEMS) Broadband Light Source
Digital Particle Image Velocimetry (DPIV) Used for Space-Time Correlations in Nozzle Flow
Compressor Performance Enhanced by Active Flow Control Over Stator Vanes
Active Control of High-Frequency Combustor Instability Demonstrated
Data-Mining Toolset Developed for Determining Turbine Engine Part Life Consumption
Performance Enhancement of Unsteady Ejectors Investigated Using a Pulsejet Driver
Last updated: June 25, 2003
Responsible NASA Official:
Gynelle.C.Steele@nasa.gov
216-433-8258
Point of contact for NASA Glenn's Research & Technology reports:
Cynthia.L.Dreibelbis@nasa.gov
216-433-2912
SGT, Inc.
Web page curator:
Nancy.L.Obryan@nasa.gov
216-433-5793
Wyle Information Systems, LLC
