Add to ORKGOptical gyroscopes are among the most accurate rotation measuring devices and are widely used for navigation and accurate pointing. Since the advent of photonic integrated components for communications, and with their increasing complexity, there has been interest in the possibility of chip-scale optical gyroscopes. Besides the potential benefits of integration, such solid-state systems would be robust and resistant to shock. Here, we report a gyroscope using Brillouin ring lasers on a silicon chip. Its stability and sensitivity enable measurement of Earth’s rotation, representing a major milestone for this new class of gyroscope
Laser gyroscopes making use of the Sagnac effect have been used as highly accurate rotation sensors ...
This work demonstrates that a middle size ring laser gyroscope (RLG) can be a very sensitive and rob...
Ring laser (RL) gyroscopes are, at present, the most precise sensors of absolute angular velocity. ...
We report a chip-based Brillouin laser gyroscope with 0.068°/√ h angular random walk and 3.6°/h bias...
A chip-based gyroscope is demonstrated that uses counter-propagating Brillouin lasers to measure rot...
Inspired by the success of semiconductor-chip-based MEMs rotation sensors, there has long been inter...
Optical-based rotation sensors have revolutionized precision, high-sensitivity inertial navigation s...
Large frame ring laser gyroscopes are top sensitivity inertial sensors able to measure absolute angu...
International audienceA monolithic chip-scale ring laser gyroscope based on both Brillouin and Sagna...
Inertial sensors are important at application level and also in fundamental physics. Ring laser gyro...
Ring laser (RL) gyroscopes are, at present, the most precise sensors of absolute angular velocity. I...
The Gross Ring G is a square ring laser gyroscope, built as a monolithic Zerodur structure with 4 m ...
Large-scale ring laser gyroscopes are highly sensitive rotation sensors whose operating principle is...
Ring lasers are inertial sensors for angular velocity based on the Sagnac effect. In recent years th...
Ring lasers are inertial sensors for angular velocity based on the Sagnac e®ect. In recent years the...
Laser gyroscopes making use of the Sagnac effect have been used as highly accurate rotation sensors ...
This work demonstrates that a middle size ring laser gyroscope (RLG) can be a very sensitive and rob...
Ring laser (RL) gyroscopes are, at present, the most precise sensors of absolute angular velocity. ...
We report a chip-based Brillouin laser gyroscope with 0.068°/√ h angular random walk and 3.6°/h bias...
A chip-based gyroscope is demonstrated that uses counter-propagating Brillouin lasers to measure rot...
Inspired by the success of semiconductor-chip-based MEMs rotation sensors, there has long been inter...
Optical-based rotation sensors have revolutionized precision, high-sensitivity inertial navigation s...
Large frame ring laser gyroscopes are top sensitivity inertial sensors able to measure absolute angu...
International audienceA monolithic chip-scale ring laser gyroscope based on both Brillouin and Sagna...
Inertial sensors are important at application level and also in fundamental physics. Ring laser gyro...
Ring laser (RL) gyroscopes are, at present, the most precise sensors of absolute angular velocity. I...
The Gross Ring G is a square ring laser gyroscope, built as a monolithic Zerodur structure with 4 m ...
Large-scale ring laser gyroscopes are highly sensitive rotation sensors whose operating principle is...
Ring lasers are inertial sensors for angular velocity based on the Sagnac effect. In recent years th...
Ring lasers are inertial sensors for angular velocity based on the Sagnac e®ect. In recent years the...
Laser gyroscopes making use of the Sagnac effect have been used as highly accurate rotation sensors ...
This work demonstrates that a middle size ring laser gyroscope (RLG) can be a very sensitive and rob...
Ring laser (RL) gyroscopes are, at present, the most precise sensors of absolute angular velocity. ...