Quantization of probability distributions and gradient flows in space dimension 2

  • Emanuele Caglioti

    Sapienza Università di Roma, Dipartimento di Matematica Guido Castelnuovo, Piazzale Aldo Moro 5, 00185 Roma, Italy
  • François Golse

    CMLS, École polytechnique, CNRS, Université Paris-Saclay, 91128 Palaiseau Cedex, France
  • Mikaela Iacobelli

    University of Cambridge, DPMMS Centre for Mathematical Sciences, Wilberforce road, Cambridge CB3 0WB, United Kingdom

Abstract

In this paper we study a perturbative approach to the problem of quantization of probability distributions in the plane. Motivated by the fact that, as the number of points tends to infinity, hexagonal lattices are asymptotically optimal from an energetic point of view [10,12,15], we consider configurations that are small perturbations of the hexagonal lattice and we show that: (1) in the limit as the number of points tends to infinity, the hexagonal lattice is a strict minimizer of the energy; (2) the gradient flow of the limiting functional allows us to evolve any perturbed configuration to the optimal one exponentially fast. In particular, our analysis provides a new mathematical justification of the asymptotic optimality of the hexagonal lattice among its nearby configurations.

Cite this article

Emanuele Caglioti, François Golse, Mikaela Iacobelli, Quantization of probability distributions and gradient flows in space dimension 2. Ann. Inst. H. Poincaré Anal. Non Linéaire 35 (2018), no. 6, pp. 1531–1555

DOI 10.1016/J.ANIHPC.2017.12.003