On the Continuum Limit for Discrete NLS with Long-Range Lattice Interactions

Author(s)

Kirkpatrick, Kay; Lenzmann, Enno; Staffilani, Gigliola

Abstract

We consider a general class of discrete nonlinear Schrödinger equations (DNLS) on the lattice hZ with mesh size h > 0. In the continuum limit when h → 0, we prove that the limiting dynamics are given by a nonlinear Schrödinger equation (NLS) on R with the fractional Laplacian (−Δ)[superscript α] as dispersive symbol. In particular, we obtain that fractional powers 1/2 < α < 1 arise from long-range lattice interactions when passing to the continuum limit, whereas the NLS with the usual Laplacian −Δ describes the dispersion in the continuum limit for short-range or quick-decaying interactions (e. g., nearest-neighbor interactions). Our results rigorously justify certain NLS model equations with fractional Laplacians proposed in the physics literature. Moreover, the arguments given in our paper can be also applied to discuss the continuum limit for other lattice systems with long-range interactions.

Date issued

2012-11

URI

http://hdl.handle.net/1721.1/80823

Department

Massachusetts Institute of Technology. Department of Mathematics

Journal

Communications in Mathematical Physics

Publisher

Springer-Verlag

Citation

Kirkpatrick, Kay, Enno Lenzmann, and Gigliola Staffilani. “On the Continuum Limit for Discrete NLS with Long-Range Lattice Interactions.” Communications in Mathematical Physics 317, no. 3 (February 17, 2013): 563-591.

Version: Original manuscript

ISSN

0010-3616

1432-0916