Engineers have designed the world’s smallest version of an optical gyroscope, a device that relies on light rather than moving parts, in a feat that could lead to models with much higher precision ...

High-precision space-based gyroscopes are important in space science research and space engineering applications. In fundamental physics research, they can be used to test the general relativity ...

Solid-state gyroscopes aren’t just for video games and smartphones. Industrial-grade devices can handle tasks that demand superaccurate sensing. • Gyroscopes found in consumer devices lack the ...

There are two kinds of gyroscopes in widespread use for navigation and control: optical ones, which are extremely sensitive but also expensive, and microelectromechanical (MEMS) ones, which are ...

Professor Simon Stellmer from the University of Bonn receives a ‘Proof of Concept Grant’ from the European Research Council (ERC) for his project „GyroRevolutionPlus“. With the funding of €150,000 for ...

Fiber optic gyroscopes (FOGs) are precision sensors that harness the interference of light within coiled optical fibres to detect rotational motion, thereby playing a critical role in modern ...

Gyroscope designs used in inertial navigation systems (INS) fall into three basic groups: the classic spinning-rotor mechanical gyro (still in use in specialized situations due to its superior ...

Mechanical Design Labs has created and launched a unique version of the traditional gyroscope, to provide a distraction or focus tool on your desk while studying, working or when you need a little ...

Laser gyroscopes represent a pivotal technology in measuring Earth’s rotation with unmatched precision, utilising the Sagnac effect to detect minuscule angular variations. These instruments, often ...