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arxiv: 2604.01820 · v2 · pith:KXZCMYQFnew · submitted 2026-04-02 · ❄️ cond-mat.stat-mech · cond-mat.dis-nn

Beyond dynamic scaling: rare events break universality

classification ❄️ cond-mat.stat-mech cond-mat.dis-nn
keywords scalingbehaviorbeyonddepositiongrowthlengthscalesize
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Surface growth driven by non-monomeric deposition has remained largely unexplored. We investigate a model based on the deposition of blobs with a power-law size distribution $P(s)\sim s^{-\tau}$. We find that the critical exponents vary continuously with $\tau$, recovering Kardar--Parisi--Zhang behavior only for $\tau \ge 3$. For $\tau<3$, roughness scaling exhibits strong corrections and scale invariance breaks down. We show that this behavior originates from the emergence of a second dynamical length scale $\zeta$, corresponding to the linear size of the largest cluster, in addition to the usual correlation length $\xi$. The coexistence of these two relevant scales signals the breakdown of the usual Family--Vicsek scaling. These results point to a new phenomenology of surface growth beyond the standard scale-invariant paradigm.

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