Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2008-02-11
Phys. Rev. E 77, 061115 (2008)
Physics
Condensed Matter
Statistical Mechanics
8 pages, 6 figures with extended introduction and discussion; version accepted for publication by Phys. Rev. E
Scientific paper
10.1103/PhysRevE.77.061115
A spatially extended classical system with metastable states subject to weak spatiotemporal noise can exhibit a transition in its activation behavior when one or more external parameters are varied. Depending on the potential, the transition can be first or second-order, but there exists no systematic theory of the relation between the order of the transition and the shape of the potential barrier. In this paper, we address that question in detail for a general class of systems whose order parameter is describable by a classical field that can vary both in space and time, and whose zero-noise dynamics are governed by a smooth polynomial potential. We show that a quartic potential barrier can only have second-order transitions, confirming an earlier conjecture [1]. We then derive, through a combination of analytical and numerical arguments, both necessary conditions and sufficient conditions to have a first-order vs. a second-order transition in noise-induced activation behavior, for a large class of systems with smooth polynomial potentials of arbitrary order. We find in particular that the order of the transition is especially sensitive to the potential behavior near the top of the barrier.
Bürki J.
Stafford Charles A.
Stein Daniel L.
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