Spectral origin of conformal invariance in active nematic turbulence

Abstract

Zero-vorticity contours in the collective flows of living cells obey Schramm-Loewner evolution with diffusivity = 6 and thus fall in the universality class of critical percolation. This observation is surprising because the underlying vorticity field has long-range correlations that, according to the Weinrib-Halperin criterion, should alter the universality class. Here we propose a spectral explanation for this apparent paradox in two-dimensional active nematic turbulence. The universal energy spectrum E(q) q-1 implies sign-field correlations whose decay exponent a = 3/2 matches the Weinrib-Halperin marginal threshold 2/0 = 3/2 for two-dimensional percolation. At this marginal point the long-range correlations are irrelevant under renormalization, so the system flows to the uncorrelated percolation fixed point. Gaussian surrogate fields with the same spectrum confirm a = 3/2 to three significant figures, and left-passage analysis of their zero-vorticity interfaces yields = 5.98 0.08, consistent with SLE6.