Joseph M. Brader, Matthias Schmidt
We derive a dynamic Ornstein-Zernike equation for classical fluids with Brownian motion driven out of equilibrium. Inhomogeneous two-time correlation functions are obtained from functional differentiation of the one-body density and current with respect to the external force. In equilibrium, a mode-coupling-type equation follows, where memory functions are functional derivatives of a space- and time-nonlocal dissipation functional. We propose a dissipation functional that both generates mode-coupling theory and extends dynamical density functional theory, thus unifying the two approaches.
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http://arxiv.org/abs/1305.3839
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