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Sharp Eigenfunction Bounds on the Torus for large $p$

Daniel Pezzi

Abstract

We prove the discrete restriction conjecture holds with no loss when $p>\frac{2d}{d-4}$ and $d\geq 5$. That is, we show optimal $L^p$ bounds for eigenfunctions of the Laplacian on the square torus for large values of $p$. This improves the results Bourgain and Demeter. Our proof method is a refinement of the circle method approach previously used to establish results with a subpolynomial loss. This represents the first sharp $L^p$ bounds for eigenfunctions on the torus since the work of Cooke and Zygmund. We present applications to bounds for spectral projectors and the additive energy of lattice points on higher dimensional spheres. These results are similarly sharp. We also prove results with a logarithmic loss that hold in a wider range of $p$.

Sharp Eigenfunction Bounds on the Torus for large $p$

Abstract

We prove the discrete restriction conjecture holds with no loss when and . That is, we show optimal bounds for eigenfunctions of the Laplacian on the square torus for large values of . This improves the results Bourgain and Demeter. Our proof method is a refinement of the circle method approach previously used to establish results with a subpolynomial loss. This represents the first sharp bounds for eigenfunctions on the torus since the work of Cooke and Zygmund. We present applications to bounds for spectral projectors and the additive energy of lattice points on higher dimensional spheres. These results are similarly sharp. We also prove results with a logarithmic loss that hold in a wider range of .
Paper Structure (17 sections, 21 theorems, 141 equations)

This paper contains 17 sections, 21 theorems, 141 equations.

Table of Contents

  1. Introduction
  2. Background
  3. Organization of the paper
  4. Some Applications
  5. A quick tour of Discrete Restriction
  6. Notation
  7. Thanks
  8. A $\log$ loss argument
  9. Preliminary estimates
  10. Proof of $\log$-loss result
  11. A sharp argument
  12. Preliminary estimates
  13. Proof of sharp result
  14. Exponential Sum Estimates
  15. Gauss Sum Estimates
  16. ...and 2 more sections

Key Result

Theorem 1.2

Let $d\geq 5$ and $p>\frac{2d}{d-4}$. Let $\mathbb{T}^{d}$ be the square torus. Then for every eigenfunction $e_N$, the following bound holds.

Theorems & Definitions (37)

  • Conjecture 1.1: The Discrete Restriction Conjecture
  • Theorem 1.2
  • Theorem 1.3
  • Theorem 1.4
  • Theorem 1.5
  • Proposition 2.1
  • proof : Proof of \ref{['2: kernelBoundProp']}
  • Lemma 2.2: Dirichlet's Lemma
  • Lemma 2.3
  • Proposition 2.4
  • ...and 27 more