Topology and Nesting of the Zero Set Components of Monochromatic Random Waves

Canzani, Yaiza; Sarnak, Peter

doi:10.1002/cpa.21795

Cited by 44 publications

(54 citation statements)

References 15 publications

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“…The most difficult case of part (2) of Theorem 1.1 is the monochromatic case˛D 1. The proof of this for n > 2 is given in the companion paper [11]. Remark 1.3.…”

Section: Statement Of the Main Resultsmentioning

confidence: 92%

Topologies of Nodal Sets of Random Band‐Limited Functions

Sarnak

Wigman

2018

Comm Pure Appl Math

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139

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“…The most difficult case of part (2) of Theorem 1.1 is the monochromatic case˛D 1. The proof of this for n > 2 is given in the companion paper [11]. Remark 1.3.…”

Section: Statement Of the Main Resultsmentioning

confidence: 92%

Topologies of Nodal Sets of Random Band‐Limited Functions

Sarnak

Wigman

2018

Comm Pure Appl Math

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139

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“…Since on the boundary of the ball W , we have either x 2 ≥ 7/2 or y 2 ≥ 3/2, the values of the function q i are greater than 1 2 e −5/2 and we get the result.…”

Section: Lemma 32 For Everymentioning

confidence: 90%

“…If |q i (x, y)| < δe −5/2 , then |Q i (x, y)| < δ, so that 1 − δ < ( x 2 − 2) 2 + y 2 < 1 + δ. This implies that 1 2 < 2− √ 1 + δ < x 2 and that either 1 2 < x 2 −2 or 1 4 < y 2 since δ ≤ 1 2 . Moreover, for every j ∈ {1, .…”

Section: Lemma 32 For Everymentioning

confidence: 91%

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Universal Components of Random Nodal Sets

Gayet

Welschinger

2016

Commun. Math. Phys.

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We give, as L grows to infinity, an explicit lower bound of order L n m for the expected Betti numbers of the vanishing locus of a random linear combination of eigenvectors of P with eigenvalues below L. Here, P denotes an elliptic self-adjoint pseudo-differential operator of order m > 0, bounded from below and acting on the sections of a Riemannian line bundle over a smooth closed n-dimensional manifold M equipped with some Lebesgue measure. In fact, for every closed hypersurface of R n , we prove that there exists a positive constant p depending only on , such that for every large enough L and every x ∈ M, a component diffeomorphic to appears with probability at least p in the vanishing locus of a random section and in the ball of radius L − 1 m centered at x. These results apply in particular to Laplace-Beltrami and Dirichlet-to-Neumann operators.

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“…More precisely, the authors relied on a result from semi‐classical analysis (see [, Theorem 2.3] in which the authors extend a result from ). Other works in this field are . All of the aforementioned works study parametric families of smooth functions

{false(f_{L} false)}_{L ⩾ 0}

on a manifold of dimension

n

that vary at a natural scale

L^{- 1 / 2}

and that possess ‘local limits’.…”

Section: Introductionmentioning

confidence: 99%

Expected number of nodal components for cut‐off fractional Gaussian fields

Rivera

2018

J. London Math. Soc.

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Let (X,g) be a closed Riemannian manifold of dimension n>0. Let normalΔ be the Laplacian on scriptX, and let false(ekfalse)k be an L2‐orthonormal and dense family of Laplace eigenfunctions with respective eigenvalues false(λkfalse)k. We assume that false(λkfalse)k is non‐decreasing and that the ek are real valued. Let false(ξkfalse)k be a sequence of independent and identically distributed N(0,1) random variables. For each L>0 and s∈R, possibly negative, set fLs=∑0<λj⩽Lλj−s2ξjej. Then, fLs is almost surely regular on its zero set. Let NL be the number of connected components of its zero set. If s0 such that NL∼νVolgfalse(scriptXfalse)Ln/2 in L1 and almost surely. In particular, Efalse[NLfalse]≍Ln/2. On the other hand, we prove that if s=n2, then Efalse[NLfalse]≍Ln/2prefixln()L1/2.In the latter case, we also obtain an upper bound for the expected Euler characteristic of the zero set of fLs and for its Betti numbers. In the case s>n/2, the pointwise variance of fLs converges so it is not expected to have universal behavior as L→+∞.

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Topology and Nesting of the Zero Set Components of Monochromatic Random Waves

Cited by 44 publications

References 15 publications

Topologies of Nodal Sets of Random Band‐Limited Functions

Topologies of Nodal Sets of Random Band‐Limited Functions

Universal Components of Random Nodal Sets

Expected number of nodal components for cut‐off fractional Gaussian fields

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