Metastability and time scales for parabolic equations with drift 1: the first time scale

Abstract

Consider the elliptic operator given by Lεf= b · ∇ f + ε f for some smooth vector field b Rd Rd and a small parameter ε>0. Consider the initial-valued problem \ aligned &∂ t uε = Lε uε,\\ &uε (0, ·) = u0(·), aligned . for some bounded continuous function u0. Denote by M0 the set of critical points of b which are stable stationary points for the ODE x (t) = b (x(t)). Under the hypothesis that M0 is finite and b = -(∇ U + ), where is a divergence-free field orthogonal to ∇ U, the main result of this article states that there exist a time-scale θ(1)ε, θ(1)ε ∞ as ε → 0, and a Markov semigroup \pt : t 0\ defined on M0 such that ε 0 uε (tθ(1)ε, x) =Σm'∈ M0 pt(m, m')\, u0( m'), for all t>0 and x in the domain of attraction of m for the ODE x(t)= b( x(t)). The time scale θ(1) is critical in the sense that, for all time scale ε such that ε ∞, ε/θ(1)ε 0, ε 0 uε (ε, x)=u0(m) for all x ∈ D(m). Namely, θε(1) is the first scale at which the solution to the initial-valued problem starts to change. In a companion paper [Landim, Lee, Seo, forthcoming] we extend this result finding all critical time-scales at which the solution uε evolves smoothly in time and we show that the solution uε is expressed in terms of the semigroup of some Markov chain taking values in sets formed by unions of critical points of b.