Shear-strain and shear-stress fluctuations in generalized Gaussian ensemble simulations of isotropic elastic networks

Abstract

Shear-strain and shear-stress correlations in isotropic elastic bodies are investigated both theoretically and numerically at either imposed mean shear-stress τ (λ=0) or shear-strain γ (λ=1) and for more general values of a dimensionless parameter λ characterizing the generalized Gaussian ensemble. It allows to tune the strain fluctuations μγγ β V δ γ2 = (1-λ)/Geq with β being the inverse temperature, V the volume, γ the instantaneous strain and Geq the equilibrium shear modulus. Focusing on spring networks in two dimensions we show, e.g., for the stress fluctuations μττ β V δτ2 (τ being the instantaneous stress) that μττ = μA - λ Geq with μA = μττ|λ=0 being the affine shear-elasticity. For the stress autocorrelation function cττ(t) β V δ τ(t) δ τ(0) this result is then seen (assuming a sufficiently slow shear-stress barostat) to generalize to cττ(t) = G(t) - λ with G(t) being the shear-stress relaxation modulus.