# Analysis of ring laser gyroscopes including laser dynamics

**Authors:** Angela D.V. Di Virgilio, Nicol\`o Beverini, Giorgio Carelli, Donatella, Ciampini, Francesco Fuso, and Enrico Maccioni

arXiv: 1904.02533 · 2020-08-10

## TL;DR

This paper presents a novel data analysis technique for ring laser gyroscopes that effectively mitigates laser dynamics non-linearities, enhancing sensitivity and accuracy for both large and small scale inertial sensors.

## Contribution

A new analysis method is introduced to study and remove laser dynamics non-linearities, improving the performance of ring laser gyroscopes.

## Key findings

- The technique reduces back-scatter effects, improving measurement accuracy.
- Small scale gyroscopes with nanoradian per second sensitivity are feasible.
- Performance improvements are demonstrated on prototypes GP2 and GINGERINO.

## Abstract

Inertial sensors stimulate very large interest, not only for their application but also for fundamental physics tests. Ring laser gyros, which measure angular rotation rate, are certainly among the most sensitive inertial sensors, with excellent dynamic range and bandwidth. Large area ring laser gyros are routinely able to measure fractions of prad/s, with high duty cycle and bandwidth, providing fast, direct and local measurement of relevant geodetic and geophysical signals. Improvements of a factor $10-100$ would open the windows for general relativity tests, as the GINGER project, an Earth based experiment aiming at the Lense-Thirring test at $1\%$ level. However, it is well known that the dynamics of the laser induces non-linearities, and those effects are more evident in small scale instruments. Sensitivity and accuracy improvements are always worthwhile, and in general there is demand for high sensitivity environmental study and development of inertial platforms, where small scale transportable instruments should be used. We discuss a novel technique to analyse the data, aiming at studying and removing those non-linearity. The analysis is applied to the two ring laser prototypes GP2 and GINGERINO, and angular rotation rate evaluated with the new and standard methods are compared. The improvement is evident, it shows that the back-scatter problem of the ring laser gyros is negligible with a proper analysis of the data, improving the performances of large scale ring laser gyros, but also indicating that small scale instruments with sensitivity of nrad/s are feasible.

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/1904.02533/full.md

## References

27 references — full list in the complete paper: https://tomesphere.com/paper/1904.02533/full.md

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Source: https://tomesphere.com/paper/1904.02533