Kurtosis as a Non--Gaussian Signature of the Large--Scale Velocity Field
classification
🌌 astro-ph
keywords
fieldvelocitydistributiongaussianinducedkurtosismodelspeculiar
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We discuss the non--linear growth of the kurtosis of the smoothed peculiar velocity field (along an arbitrary direction), in an Einstein--de Sitter universe, induced by Gaussian primordial density fluctuations. Applying the perturbative theory, we show that, for different cosmological models, a departure from the original Gaussian distribution is gravitationally induced only on small scales ($\simlt 20-30$ Mpc). Models with scale--free power spectrum $P(k)\propto k^{\,n}$, with $-1< n \leq 1$, are also considered. When the fluid particles move according to the Zel'dovich approximation the probability distribution of the peculiar velocity field remains unaltered during the evolution.
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