Gaussian fluctuation for spatial average of super-Brownian motion
Abstract
Let \u(t\,, x)\(t, x)∈ R+× R be the density of one-dimensional super-Brownian motion starting from Lebesgue measure. Using the Laplace functional of super-Brownian motion, we prove that as N ∞, the normalized spatial integral N-1/2∫0xN[u(t\,, z)-1 ]d z converges jointly in (t, x) to Brownian sheet in distribution.
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