An asymptotic expansion for the expected number of real zeros of Kac-Geronimus polynomials (2012.15055v1)
Abstract: Let $ {\varphi_i(z;\alpha)}{i=0}\infty $, corresponding to $ \alpha\in(-1,1) $, be orthonormal Geronimus polynomials. We study asymptotic behavior of the expected number of real zeros, say $ \mathbb E_n(\alpha) $, of random polynomials [ P_n(z) := \sum{i=0}n\eta_i\varphi_i(z;\alpha), ] where $ \eta_0,\dots,\eta_n $ are i.i.d. standard Gaussian random variables. When $ \alpha=0 $, $ \varphi_i(z;0)=zi $ and $ P_n(z)$ are called Kac polynomials. In this case it was shown by Wilkins that $ \mathbb E_n(0)$ admits an asymptotic expansion of the form [ \mathbb E_n(0) \sim \frac2\pi\log(n+1) + \sum_{p=0}\infty A_p(n+1){-p} ] (Kac himself obtained the leading term of this expansion). In this work we obtain a similar expansion of $ \mathbb E(\alpha) $ for $ \alpha\neq 0 $. As it turns out, the leading term of the asymptotics in this case is $ (1/\pi)\log(n+1) $.
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