English

Subexponential Growth Rates in Functional Differential Equations

Classical Analysis and ODEs 2014-09-16 v1

Abstract

This paper determines the rate of growth to infinity of a scalar autonomous nonlinear functional differential equation with finite delay, where the right hand side is a positive continuous linear functional of f(x)f(x). We assume ff grows sublinearly, and is such that solutions should exhibit growth faster than polynomial, but slower than exponential. Under some technical conditions on ff, it is shown that the solution of the functional differential equation is asymptotic to that of an auxiliary autonomous ordinary differential equation with righthand side proportional to ff (with the constant of proportionality equal to the mass of the finite measure associated with the linear functional), provided ff grows more slowly than l(x)=x/logxl(x)=x/\log x. This linear--logarithmic growth rate is also shown to be critical: if ff grows more rapidly than ll, the ODE dominates the FDE; if ff is asymptotic to a constant multiple of ll, the FDE and ODE grow at the same rate, modulo a constant non--unit factor.

Keywords

Cite

@article{arxiv.1409.4201,
  title  = {Subexponential Growth Rates in Functional Differential Equations},
  author = {John A. D. Appleby and Denis D. Patterson},
  journal= {arXiv preprint arXiv:1409.4201},
  year   = {2014}
}

Comments

10 pages

R2 v1 2026-06-22T05:56:40.611Z