Author Of 1 Presentation
TuC4.2 - OPTICAL MICROSTRUCTURES FOR HIGH PERFORMANCE INERTIAL SENSORS
- B. Pant (US) Honeywell Aerospace
- N. Krueger (US) Honeywell Aerospace
- W. Williams (US) Honeywell Aerospace
- G. Sanders (US) Honeywell Aerospace
- J. Wu (US) Honeywell Aerospace
- K. Nelson (US) Honeywell Aerospace
- C. Fertig (US) Honeywell Aerospace
- R. Compton (US) Honeywell Aerospace
- G. Lodden (US) Honeywell Aerospace
- E. Benser (US) Honeywell Aerospace
Abstract
Abstract
We report progress on precision optical microstructures such as a postage stamp-sized optics table aimed at miniaturization and cost reduction of navigation-grade gyroscopes. Other chip-scale developments include an optical waveguide-based laser gyroscope, and resonant opto-mechanical structures with optical readout, for gun-hard gyroscopes and accelerometers, respectively.
Presenter Of 1 Presentation
TuC4.2 - OPTICAL MICROSTRUCTURES FOR HIGH PERFORMANCE INERTIAL SENSORS
- B. Pant (US) Honeywell Aerospace
- N. Krueger (US) Honeywell Aerospace
- W. Williams (US) Honeywell Aerospace
- G. Sanders (US) Honeywell Aerospace
- J. Wu (US) Honeywell Aerospace
- K. Nelson (US) Honeywell Aerospace
- C. Fertig (US) Honeywell Aerospace
- R. Compton (US) Honeywell Aerospace
- G. Lodden (US) Honeywell Aerospace
- E. Benser (US) Honeywell Aerospace
Abstract
Abstract
We report progress on precision optical microstructures such as a postage stamp-sized optics table aimed at miniaturization and cost reduction of navigation-grade gyroscopes. Other chip-scale developments include an optical waveguide-based laser gyroscope, and resonant opto-mechanical structures with optical readout, for gun-hard gyroscopes and accelerometers, respectively.