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On quantum ergodicity for higher dimensional cat maps

Dynamical Systems 2025-09-03 v2 Mathematical Physics Analysis of PDEs math.MP Number Theory

Abstract

We study eigenfunction localization for higher dimensional cat maps, a popular model of quantum chaos. These maps are given by linear symplectic maps in Sp(2g,Z){\mathrm{Sp}}(2g,\mathbb Z), which we take to be ergodic. Under some natural assumptions, we show that there is a density one sequence of integers NN so that as NN tends to infinity along this sequence, all eigenfunctions of the quantized map at the inverse Planck constant NN are uniformly distributed. For the two-dimensional case (g=1g=1), this was proved by P. Kurlberg and Z. Rudnick (2001). The higher dimensional case offers several new features and requires a completely different set of tools, including from additive combinatorics, in particular Bourgain's bound (2005) for Mordell sums, and a study of tensor product structures for the cat map.

Keywords

Cite

@article{arxiv.2411.05997,
  title  = {On quantum ergodicity for higher dimensional cat maps},
  author = {Pär Kurlberg and Alina Ostafe and Zeev Rudnick and Igor E. Shparlinski},
  journal= {arXiv preprint arXiv:2411.05997},
  year   = {2025}
}
R2 v1 2026-06-28T19:53:53.516Z