4.6 Article

Investigating the accuracy achievable in reconstructing the angular sizes of stars through stellar intensity interferometry observations

Journal

ASTRONOMY & ASTROPHYSICS
Volume 666, Issue -, Pages -

Publisher

EDP SCIENCES S A
DOI: 10.1051/0004-6361/202244094

Keywords

instrumentation; high angular resolution; instrumentation; interferometers; techniques; interferometric; stars; fundamental parameters; stars; imaging

Funding

  1. University of Padova [BIRD NALE_SID19_01]

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This study investigates the accuracy of reconstructing stellar sizes by fitting the visibility curve measured on the ground. It is found that measuring the value of the zero-baseline correlation is essential for obtaining the best results. Additionally, the integration time can be minimized by obtaining a second measurement at a baseline between the first zero of the visibility function and zero. The study also provides analytical expressions for determining the accuracy of reconstructing the angular size of a star in advance under specific conditions.
Context. In recent years, stellar intensity interferometry has seen renewed interest from the astronomical community because it can be efficiently applied to Cherenkov telescope arrays. Aims. We have investigated the accuracy that can be achieved in reconstructing stellar sizes by fitting the visibility curve measured on the ground. The large number of expected available astronomical targets, the limited number of nights in a year, and the likely presence of multiple baselines will require careful planning of the observational strategy to maximise the scientific output. Methods. We studied the trend of the error on the estimated angular size, considering the uniform disk model, by varying several parameters related to the observations, such as the total number of measurements, the integration time, the signal-to-noise ratio, and different positions along the baseline. Results. We found that measuring the value of the zero-baseline correlation is essential to obtain the best possible results. Systems that can measure this value directly or for which it is known in advance will have better sensitivity. We also found that to minimise the integration time, it is sufficient to obtain a second measurement at a baseline half-way between 0 and that corresponding to the first zero of the visibility function. This function does not have to be measured at multiple positions. Finally, we obtained some analytical expressions that can be used under specific conditions to determine the accuracy that can be achieved in reconstructing the angular size of a star in advance. This is useful to optimise the observation schedule.

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