In order to optimize the performance of a resonant micro-optic gyroscope, a well-designed transmissive structure, which was obtained by optimizing the transmission coefficient of a coupler was used as the core component of a planar waveguide optical gyroscope. By analyzing the relationship between the resonator’s transmission coefficient and the gyroscope’s scale factor, the optical waveguide resonator sensing element with optimal parameters for the resonant micro-optic gyroscope was obtained. A scale factor of 1.34 mV/°/s was achieved using an open-loop system, and a bias stability of 183.7 °/h over a one-hour test was successfully demonstrated
Design optimization of the coupling region is conducted in order to solve the difficulty of achievin...
This paper proposed a novel design of microgyroscope based on MEMS structures and optic interferomet...
This thesis reports on a design and modeling of a micro-machined gyroscope. The proposed sensor is a...
As an important sensing element, the whispering gallery mode resonator (WGMR) parameters seriously a...
A micro optoelectromechanical system (MOEMS) resonator gyroscope based on a waveguide micro-ring res...
How to improve the sensitivity of new pattern of gyroscope which is based on micro ring resonator is...
Based on periodically modulated coupling and circumferences, we developed a new structure for couple...
Waveguide ring resonator is the sensing element of resonant integrated optical gyroscope (RIOG). Thi...
This paper presents an enhanced stability strategy for the sense mode of a force-rebalanced closed-l...
The integrated resonator fiber optic gyroscope (RFOG) using a hollow core photonic bandgap fiber (HC...
Reducing the dimensions of optical gyroscopes is a crucial task and resonant fiber optic gyroscopes ...
Rotation sensors (gyros) and accelerometers are essential components for all precision-guided weapon...
In the last decade, silicon photonics has become a strategic technology for the development of telec...
The design, fabrication, and optical characterization of the sensing element of a photonic InP-based...
We propose to utilize the highly dispersive coupled resonator structure for sensitive rotation sensi...
Design optimization of the coupling region is conducted in order to solve the difficulty of achievin...
This paper proposed a novel design of microgyroscope based on MEMS structures and optic interferomet...
This thesis reports on a design and modeling of a micro-machined gyroscope. The proposed sensor is a...
As an important sensing element, the whispering gallery mode resonator (WGMR) parameters seriously a...
A micro optoelectromechanical system (MOEMS) resonator gyroscope based on a waveguide micro-ring res...
How to improve the sensitivity of new pattern of gyroscope which is based on micro ring resonator is...
Based on periodically modulated coupling and circumferences, we developed a new structure for couple...
Waveguide ring resonator is the sensing element of resonant integrated optical gyroscope (RIOG). Thi...
This paper presents an enhanced stability strategy for the sense mode of a force-rebalanced closed-l...
The integrated resonator fiber optic gyroscope (RFOG) using a hollow core photonic bandgap fiber (HC...
Reducing the dimensions of optical gyroscopes is a crucial task and resonant fiber optic gyroscopes ...
Rotation sensors (gyros) and accelerometers are essential components for all precision-guided weapon...
In the last decade, silicon photonics has become a strategic technology for the development of telec...
The design, fabrication, and optical characterization of the sensing element of a photonic InP-based...
We propose to utilize the highly dispersive coupled resonator structure for sensitive rotation sensi...
Design optimization of the coupling region is conducted in order to solve the difficulty of achievin...
This paper proposed a novel design of microgyroscope based on MEMS structures and optic interferomet...
This thesis reports on a design and modeling of a micro-machined gyroscope. The proposed sensor is a...