On marginally resolved objects in optical interferometry
摘要
With the present and soon-to-be breakthrough of optical interferometry, countless objects shall be within reach of interferometers; yet, most of them are expected to remain only marginally resolved with hectometric baselines. In this paper, we tackle the problem of deriving the properties of a marginally resolved object from its optical visibilities. We show that they depend on the moments of flux distribution of the object: centre, mean angular size, asymmetry, and curtosis. We also point out that the visibility amplitude is a second-order phenomenon, whereas the phase is a combination of a first-order term, giving the location of the photocentre, and a third-order term, more difficult to detect than the visibility amplitude, giving an asymmetry coefficient of the object. We then demonstrate that optical visibilities are not a good model constraint while the object stays marginally resolved, unless observations are carried out at different wavelengths. Finally, we show an application of this formalism to circumstellar discs.
引用
@article{arxiv.astro-ph/0304259,
title = {On marginally resolved objects in optical interferometry},
author = {Regis Lachaume},
journal= {arXiv preprint arXiv:astro-ph/0304259},
year = {2009}
}
备注
10 pages 8 figures (layout slightly different from that of A&A)