Random Lipschitz–Killing curvatures: Reduction Principles, Integration by Parts and Wiener chaos
Author:
A. Vidotto
Journal:
Theor. Probability and Math. Statist. 106 (2022), 157-175
MSC (2020):
Primary 60G60, 60D05; Secondary 35J05, 60G10, 60G15
DOI:
https://doi.org/10.1090/tpms/1170
Published electronically:
May 16, 2022
MathSciNet review:
4438449
Full-text PDF
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Additional Information
Abstract: In this survey we collect some recent results regarding the Lipschitz–Killing curvatures (LKCs) of the excursion sets of random eigenfunctions on the two-dimensional standard flat torus (arithmetic random waves) and on the two-dimensional unit sphere (random spherical harmonics). In particular, the aim of the present survey is to highlight the key role of integration by parts formulae in order to have an extremely neat expression for the random LKCs. Indeed, the main tool to study local geometric functionals of random waves on manifold is to exploit their Wiener chaos decomposition and show that (often), in the so-called high-energy limit, a single chaotic component dominates their behavior. Moreover, reduction principles show that the dominant Wiener chaotic component of LKCs of random waves’ excursion sets at threshold level $u\ne 0$ is proportional to the integral of $H_2(f)$, $f$ being the random field of interest and $H_2$ the second Hermite polynomial. This will be shown via integration by parts formulae.
References
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References
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- M. F. Kratz and J. R. León, Level curves crossings and applications for Gaussian models, Extremes 13 (2010), no. 3, 315–351. MR 2670094
- M. Krishnapur, P. Kurlberg, and Igor Wigman, Nodal length fluctuations for arithmetic random waves, Ann. of Math. (2) 177 (2013), no. 2, 699–737. MR 3010810
- P. Kurlberg and I. Wigman, On probability measures arising from lattice points on circles, Math. Ann. 367 (2017), no. 3-4, 1057–1098. MR 3623219
- P. Kurlberg, I. Wigman, and N. Yesha, The defect of toral Laplace eigenfunctions and arithmetic random waves, Nonlinearity 34 (2021), no. 9, 6651–6684. MR 4304493
- E. Landau, Uber die einteilung der positiven zahlen nach vier klassen nach der mindestzahl der zu ihrer addition zusammensetzung erforderlichen quadrate, Archiv der Math. und Physik 13 (1908), no. 3, 305–312.
- A. Logunov, E. Malinnikova, N. Nadirashvili, and F. Nazarov, The sharp upper bound for the area of the nodal sets of Dirichlet Laplace eigenfunctions, Geom. Funct. Anal. 31 (2021), no. 5, 1219–1244. MR 4356702
- A. Logunov, Nodal sets of Laplace eigenfunctions: proof of Nadirashvili’s conjecture and of the lower bound in Yau’s conjecture, Ann. of Math. (2) 187 (2018), no. 1, 241–262. MR 3739232
- R. W. Maffucci, Nodal intersections for random waves against a segment on the 3-dimensional torus, J. Funct. Anal. 272 (2017), no. 12, 5218–5254. MR 3639527
- R. W. Maffucci, Nodal intersections of random eigenfunctions against a segment on the 2-dimensional torus, Monatsh. Math. 183 (2017), no. 2, 311–328. MR 3641930
- R. W. Maffucci, Nodal intersections for arithmetic random waves against a surface, Ann. Henri Poincaré 20 (2019), no. 11, 3651–3691. MR 4019200
- D. Marinucci and I. Wigman, The defect variance of random spherical harmonics, J. Phys. A 44 (2011), no. 35, 355206.
- D. Marinucci and G. Peccati, Ergodicity and Gaussianity for spherical random fields, J. Math. Phys. 51 (2010), no. 4, 043301, 23. MR 2662485
- D. Marinucci and G. Peccati, Random fields on the sphere, London Mathematical Society Lecture Note Series, vol. 389, Cambridge University Press, Cambridge, 2011. MR 2840154
- D. Marinucci, G. Peccati, M. Rossi, and I. Wigman, Non-universality of nodal length distribution for arithmetic random waves, Geom. Funct. Anal. 26 (2016), no. 3, 926–960. MR 3540457
- D. Marinucci and M. Rossi, Stein–Malliavin approximations for nonlinear functionals of random eigenfunctions on $\mathbb {S}^d$, J. Funct. Anal. 268 (2015), no. 8, 2379–2420. MR 3318653
- D. Marinucci, M. Rossi, and I. Wigman, The asymptotic equivalence of the sample trispectrum and the nodal length for random spherical harmonics, Ann. Inst. Henri Poincaré Probab. Stat. 56 (2020), no. 1, 374–390. MR 4058991
- D. Marinucci and I. Wigman, On the area of excursion sets of spherical Gaussian eigenfunctions, J. Math. Phys. 52 (2011), no. 9, 093301, 21. MR 2867816
- D. Marinucci and I. Wigman, On nonlinear functionals of random spherical eigenfunctions, Comm. Math. Phys. 327 (2014), no. 3, 849–872. MR 3192051
- F. Nazarov and M. Sodin, Asymptotic laws for the spatial distribution and the number of connected components of zero sets of Gaussian random functions, Zh. Mat. Fiz. Anal. Geom. 12 (2016), no. 3, 205–278. MR 3522141
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- I. Nourdin, G. Peccati, and M. Rossi, Nodal statistics of planar random waves, Comm. Math. Phys. 369 (2019), no. 1, 99–151. MR 3959555
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- M. Rossi, The defect of random hyperspherical harmonics, J. Theoret. Probab. 32 (2019), no. 4, 2135–2165. MR 4020703
- M. Rossi, Random nodal lengths and Wiener chaos, Probabilistic methods in geometry, topology and spectral theory, Contemp. Math., vol. 739, Amer. Math. Soc., [Providence], RI, [2019] ©2019, pp. 155–169. MR 4033918
- M. Rossi and I. Wigman, Asymptotic distribution of nodal intersections for arithmetic random waves, Nonlinearity 31 (2018), no. 10, 4472–4516. MR 3846437
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- A. Vidotto, A note on the reduction principle for the nodal length of planar random waves, Statist. Probab. Lett. 174 (2021), Paper No. 109090, 5. MR 4237481
- I. Wigman, Fluctuations of the nodal length of random spherical harmonics, Comm. Math. Phys. 298 (2010), no. 3, 787–831. MR 2670928
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Additional Information
A. Vidotto
Affiliation:
Dipartimento di Matematica e Applicazioni, Università degli Studi di Napoli Federico II
Email:
anna.vidotto@unina.it
Keywords:
Lipschitz-Killing curvatures,
random eigenfunctions,
Wiener chaos expansion,
reduction principles
Received by editor(s):
July 25, 2021
Accepted for publication:
October 18, 2021
Published electronically:
May 16, 2022
Article copyright:
© Copyright 2022
Taras Shevchenko National University of Kyiv
