Viscoelastic scaling regimes for marginally-rigid fractal spring networks

Abstract

A family of marginally-rigid (isostatic) spring networks with fractal structure up to a controllable length was devised and the viscoelastic spectra G*(ω) calculated. Two non-trivial scaling regimes were observed, (i)~G≈ Gω at low frequencies, consistent with =1/2; (ii)~G Gω^ for intermediate frequencies corresponding to fractal structure, consistent with a theoretical prediction =(3-2)/(3+2). The cross-over between these two regimes occurred at lower frequencies for larger fractals in a manner suggesting diffusive-like dispersion. Solid gels generated by introducing internal stresses exhibited similar behaviour above a low-frequency cut-off, indicating the relevance of these findings to real-world applications.