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 ...

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 ...

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 ...

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 ...

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 ...

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 ...