A monolithic micro cavity is used to detect rotations as low as 22 degrees/hour using counter-propagating laser fields. The proof-of-concept gyroscope features an 18mm silica-on-silicon disk resonator with an intrinsic Q factor over 200 million. Cascaded stimulated Brillouin lasing action produces the laser fields
The first chip-based stimulated Brillouin laser (SBL) is demonstrated. It has efficiency of 90% and ...
The highly efficient coupling of light from conventional optical components to optical mode volumes ...
Optical gyroscopes based on the Sagnac effect have been the mainstay of inertial navigation in aeros...
A monolithic micro cavity is used to detect rotations as low as 22 degrees/hour using counter-propag...
A chip-based gyroscope is demonstrated that uses counter-propagating Brillouin lasers to measure rot...
Optical-based rotation sensors have revolutionized precision, high-sensitivity inertial navigation s...
We report a chip-based Brillouin laser gyroscope with 0.068°/√ h angular random walk and 3.6°/h bias...
Inspired by the success of semiconductor-chip-based MEMs rotation sensors, there has long been inter...
Optical gyroscopes are among the most accurate rotation measuring devices and are widely used for na...
International audienceA monolithic chip-scale ring laser gyroscope based on both Brillouin and Sagna...
A new scheme for ultrasensitive micro-ring laser gyroscopes based on the physics of exceptional poin...
propose a new scheme for ultrasensitive micro-scale ri ng 1 aser g yroscopes based on the physics of...
This master thesis presents an experimental design of a laser gyroscope based on a stabilized fiber ...
We present a fully active-controlled He–Ne ring laser gyroscope operating in square cavity having a ...
We demonstrate optical trapping of a microgyroscope rotating at MHz rates in vacuum. The particle is...
The first chip-based stimulated Brillouin laser (SBL) is demonstrated. It has efficiency of 90% and ...
The highly efficient coupling of light from conventional optical components to optical mode volumes ...
Optical gyroscopes based on the Sagnac effect have been the mainstay of inertial navigation in aeros...
A monolithic micro cavity is used to detect rotations as low as 22 degrees/hour using counter-propag...
A chip-based gyroscope is demonstrated that uses counter-propagating Brillouin lasers to measure rot...
Optical-based rotation sensors have revolutionized precision, high-sensitivity inertial navigation s...
We report a chip-based Brillouin laser gyroscope with 0.068°/√ h angular random walk and 3.6°/h bias...
Inspired by the success of semiconductor-chip-based MEMs rotation sensors, there has long been inter...
Optical gyroscopes are among the most accurate rotation measuring devices and are widely used for na...
International audienceA monolithic chip-scale ring laser gyroscope based on both Brillouin and Sagna...
A new scheme for ultrasensitive micro-ring laser gyroscopes based on the physics of exceptional poin...
propose a new scheme for ultrasensitive micro-scale ri ng 1 aser g yroscopes based on the physics of...
This master thesis presents an experimental design of a laser gyroscope based on a stabilized fiber ...
We present a fully active-controlled He–Ne ring laser gyroscope operating in square cavity having a ...
We demonstrate optical trapping of a microgyroscope rotating at MHz rates in vacuum. The particle is...
The first chip-based stimulated Brillouin laser (SBL) is demonstrated. It has efficiency of 90% and ...
The highly efficient coupling of light from conventional optical components to optical mode volumes ...
Optical gyroscopes based on the Sagnac effect have been the mainstay of inertial navigation in aeros...
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