Upper bounds on the fluctuations for a class of degenerate convex ∇ϕ-interface models
arXiv (Cornell University)(2023)
摘要
We derive upper bounds on the fluctuations of a class of random surfaces of
the ∇ϕ-type with convex interaction potentials. The Brascamp-Lieb
concentration inequality provides an upper bound on these fluctuations for
uniformly convex potentials. We extend these results to twice continuously
differentiable convex potentials whose second derivative grows asymptotically
like a polynomial and may vanish on an (arbitrarily large) interval.
Specifically, we prove that, when the underlying graph is the d-dimensional
torus of side length L, the variance of the height is smaller than C ln L
in two dimensions and remains bounded in dimension d ≥ 3.
The proof makes use of the Helffer-Sjöstrand representation formula
(originally introduced by Helffer and Sjöstrand (1994) and used by Naddaf
and Spencer (1997) and Giacomin, Olla Spohn (2001) to identify the scaling
limit of the model), the anchored Nash inequality (and the corresponding
on-diagonal heat kernel upper bound) established by Mourrat and Otto (2016) and
Efron's monotonicity theorem for log-concave measures (Efron (1965)).
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关键词
degenerate convex
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