Dynamics of 2 + 1 Dimensional Sos Surfaces above a Wall: Slow Mixing Induced by Entropic Repulsion

نویسندگان

  • PIETRO CAPUTO
  • EYAL LUBETZKY
  • FABIO MARTINELLI
  • ALLAN SLY
  • FABIO LUCIO TONINELLI
چکیده

We study the Glauber dynamics for the (2+1)d Solid-On-Solid model above a hard wall and below a far away ceiling, on an L × L box of Z with zero boundary conditions, at large inverse-temperature β. It was shown by Bricmont, El-Mellouki and Fröhlich [12] that the floor constraint induces an entropic repulsion effect which lifts the surface to an average height H ≍ (1/β) logL. As an essential step in understanding the effect of entropic repulsion on the Glauber dynamics we determine the equilibrium height H to within an additive constant: H = (1/4β) logL+O(1). We then show that starting from zero initial conditions the surface rises to its final height H through a sequence of metastable transitions between consecutive levels. The time for a transition from height h = aH , a ∈ (0, 1), to height h+1 is roughly exp(cL) for some constant c > 0. In particular, the mixing time of the dynamics is exponentially large in L, i.e. Tmix > e . We also provide the matching upper bound Tmix 6 e c′L, requiring a challenging analysis of the statistics of height contours at low temperature and new coupling ideas and techniques. Finally, to emphasize the role of entropic repulsion we show that without a floor constraint at height zero the mixing time is no longer exponentially large in L.

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تاریخ انتشار 2013