Photonics (Nov 2023)

Characterization of Laser Frequency Stability by Using Phase-Sensitive Optical Time-Domain Reflectometry

  • Danil M. Bengalskii,
  • Danil R. Kharasov,
  • Edgard A. Fomiryakov,
  • Sergei P. Nikitin,
  • Oleg E. Nanii,
  • Vladimir N. Treshchikov

DOI
https://doi.org/10.3390/photonics10111234
Journal volume & issue
Vol. 10, no. 11
p. 1234

Abstract

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A new method to measure laser phase noise and frequency stability based on the phase-sensitive optical time-domain reflectometry is proposed. In this method, the laser under test is utilized in a phase-sensitive optical time-domain reflectometer, which employs phase-modulated dual pulses and acts as an optical frequency discriminator: laser frequency fluctuations are deduced from the analysis of the reflectometer data corresponded to phase fluctuations along the vibration-damped and thermally insulated fiber spool. The measurement results were validated by comparison with direct optical heterodyning of the tested and more coherent reference lasers. The use of dual pulses generated by an acousto-optic modulator makes it easy to adjust the time delay during measurements, which distinguishes favorably the proposed method from standard optical frequency discriminators. The method is suitable for testing highly coherent lasers and qualifying their parameters such as linear drift rate, random frequency walk rate, white frequency noise (which is directly related to laser instantaneous linewidth), and flicker noise level.

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