A chip-based gyroscope is demonstrated that uses counter-propagating Brillouin lasers to measure rotation as a Sagnac-induced frequency shift. Demonstration of rotation measurement below the Earth rotation rate is presented. Prospects for improved performance are discussed
Inertial sensors are important at application level and also in fundamental physics. Ring laser gyro...
Large frame ring laser gyroscopes are top sensitivity inertial sensors able to measure absolute angu...
Optical gyroscopes measure the rate of rotation by exploiting a relativistic phenomenon known as the...
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...
Optical gyroscopes are among the most accurate rotation measuring devices and are widely used for na...
Inspired by the success of semiconductor-chip-based MEMs rotation sensors, there has long been inter...
A monolithic micro cavity is used to detect rotations as low as 22 degrees/hour using counter-propag...
International audienceA monolithic chip-scale ring laser gyroscope based on both Brillouin and Sagna...
Optical gyroscopes based on the Sagnac effect have been the mainstay of inertial navigation in aeros...
Low-cost chip-scale optoelectronic gyroscopes having a resolution ≤ 10 °/h and a good reliability al...
Exceptional points (EPs) are special spectral degeneracies of non-Hermitian Hamiltonians that govern...
Laser gyroscopes making use of the Sagnac effect have been used as highly accurate rotation sensors ...
Gyroscopes merit an undeniable role in inertial navigation systems, geodesy and seismology. By emplo...
Inertial sensors are important at application level and also in fundamental physics. Ring laser gyro...
Large frame ring laser gyroscopes are top sensitivity inertial sensors able to measure absolute angu...
Optical gyroscopes measure the rate of rotation by exploiting a relativistic phenomenon known as the...
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...
Optical gyroscopes are among the most accurate rotation measuring devices and are widely used for na...
Inspired by the success of semiconductor-chip-based MEMs rotation sensors, there has long been inter...
A monolithic micro cavity is used to detect rotations as low as 22 degrees/hour using counter-propag...
International audienceA monolithic chip-scale ring laser gyroscope based on both Brillouin and Sagna...
Optical gyroscopes based on the Sagnac effect have been the mainstay of inertial navigation in aeros...
Low-cost chip-scale optoelectronic gyroscopes having a resolution ≤ 10 °/h and a good reliability al...
Exceptional points (EPs) are special spectral degeneracies of non-Hermitian Hamiltonians that govern...
Laser gyroscopes making use of the Sagnac effect have been used as highly accurate rotation sensors ...
Gyroscopes merit an undeniable role in inertial navigation systems, geodesy and seismology. By emplo...
Inertial sensors are important at application level and also in fundamental physics. Ring laser gyro...
Large frame ring laser gyroscopes are top sensitivity inertial sensors able to measure absolute angu...
Optical gyroscopes measure the rate of rotation by exploiting a relativistic phenomenon known as the...
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