Abstract
The paper is devoted to the current problem of gyroscopy in general and its magneto-optical laser branch in particular: further increase in the accuracy of gyroscopes while maintaining their stable operation in real operating conditions. The problem is considered and studied by the example of the magneto-optical Zeeman laser gyroscope, which is one of the effective types of laser gyroscope. The development and improvement of the technolo-gy for creating this type of gyroscopes makes it possible to significantly re-duce the sources of the gyroscope zero drift and yet, retain the other properties and performance parameters. The study and validation of the possibility of a significant reduction in the gyroscope key control currents, such as the pumping currents of the active medium and the control currents of frequency bias, will increase the measuring accuracy of the gyroscope, and, accordingly, the accuracy of navigation systems based on them.
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