# Modeling the colors of phase noise in optomechanical oscillators

**Authors:** Cijy Mathai, Sunil A. Bhave, Siddharth Tallur

arXiv: 1904.02922 · 2019-04-08

## TL;DR

This paper develops a comprehensive phase noise model for optomechanical oscillators that includes pink noise and higher order effects, validated through experiments on silicon OMOs, enhancing understanding of noise mechanisms.

## Contribution

The paper introduces a phase noise model for OMOs that accounts for pink noise and thermomechanical and adsorption-desorption noise contributions, validated with experimental data.

## Key findings

- Model accurately predicts phase noise spectra including pink noise.
- Experimental data confirms the significance of thermomechanical and AD noise.
- Provides insights into noise mechanisms affecting OMO performance.

## Abstract

Optomechanical oscillators (OMOs) combine the co-existing high quality factor mechanical and optical resonances in an integrated device to realize low phase noise RF oscillations. While several attempts have been demonstrated towards modeling the phase noise in such oscillators, the close-to-carrier phase noise models in literature do not account for $1/f^3$ (pink noise) and higher order slopes in the phase noise spectra. Here we present a phase noise model, corroborated with experimental characterization of phase noise of two monolithic integrated silicon OMOs, accounting for contributions to the phase noise due to thermomechanical, and adsorption-desorption (AD) noise. The model shows good agreement with experimental data and provides further insights into the mechanisms underlying the noise processes contributing to different slopes in the phase noise spectra in OMOs.

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/1904.02922/full.md

## References

24 references — full list in the complete paper: https://tomesphere.com/paper/1904.02922/full.md

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Source: https://tomesphere.com/paper/1904.02922