English

Estimating the phase in ground-based interferometry: performance comparison between single-mode and multimode schemes

Instrumentation and Methods for Astrophysics 2015-05-19 v1

Abstract

In this paper we compare the performance of multi and single-mode interferometry for the estimation of the phase of the complex visibility. We provide a theoretical description of the interferometric signal which enables to derive the phase error in presence of detector, photon and atmospheric noises, for both multi and single-mode cases. We show that, despite the loss of flux occurring when injecting the light in the single-mode component (i.e. single-mode fibers, integrated optics), the spatial filtering properties of such single-mode devices often enable higher performance than multimode concepts. In the high flux regime speckle noise dominated, single-mode interferometry is always more efficient, and its performance is significantly better when the correction provided by adaptive optics becomes poor, by a factor of 2 and more when the Strehl ratio is lower than 10%. In low light level cases (detector noise regime), multimode interferometry reaches better performance, yet the gain never exceeds 20%, which corresponds to the percentage of photon loss due to the injection in the guides. Besides, we demonstrate that single-mode interferometry is also more robust to the turbulence in both cases of fringe tracking and phase referencing, at the exception of narrow field of views (<1 arcsec).

Keywords

Cite

@article{arxiv.1009.1797,
  title  = {Estimating the phase in ground-based interferometry: performance comparison between single-mode and multimode schemes},
  author = {E. Tatulli and N. Blind and J. P. Berger and A. Chelli and F. Malbet},
  journal= {arXiv preprint arXiv:1009.1797},
  year   = {2015}
}

Comments

9 pages (+ 11 online material appendices) -- 8 Figures. Accepted in A&A

R2 v1 2026-06-21T16:11:44.918Z