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Paper detail

A method to deconvolve stellar rotational velocities II

Knowing the distribution of stellar rotational velocities is essential for the understanding stellar evolution. Because we measure the projected rotational speed vsini, we need to solve an ill-posed problem given by a Fredholm integral of the first kind to recover the true rotational velocity distribution. After discretization of the Fredholm integral, we apply the Tikhonov regularization method to obtain directly the probability distribution function for stellar rotational velocities. We propose a simple and straightforward procedure to determine the Tikhonov parameter. We applied Monte Carlo simulations to prove that Tikhonov method is a consistent estimator and asymptotically unbiased. This method is applied to a sample of cluster stars. We obtain confidences intervals using bootstrap method. Our results are in good agreement with the one obtained using the Lucy method, in recovering the probability density distribution of rotational velocities. Furthermore, Lucy estimation lies inside our confidence interval. Tikhonov regularization is a very robust method that deconvolve the rotational velocity probability density function from a sample of vsini data straightforward without needing any convergence criteria.

preprint2016arXivOpen access
A. ChristenP. EscarateM. CureD. F. RialJ. Cassetti
astro-ph.IM
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A. ChristenP. EscarateM. CureD. F. RialJ. Cassetti

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