Elena B. Yarovaya, Jordan M. Stoyanov, Konstantin K. Kostyashin
Published 2019-11-30Version 1
We study the relationship between the well-known Carleman's condition guaranteeing that a probability distribution is uniquely determined by its moments, and a recent easily checkable condition on the rate of growth of the moments. We use asymptotic methods in theory of integrals and involve properties of the Lambert $W$-function to show that the quadratic rate of growth of the ratios of consecutive moments, as a sufficient condition for uniqueness, is more restrictive than Carleman's condition. We derive a series of statements, one of them showing that Carleman's condition does not imply Hardy's condition, although the inverse implication is true. Related topics are also discussed.
New checkable conditions for moment determinacy of probability distributions
Interplay between Negation of a Probability Distribution and Jensen Inequality
Characterization of Probability Distributions via Functional Equations of Power-Mixture Type
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