Non equilibrium mode coupling theory for supercooled liquids and glasses

Abstract

A formally exact set of equations is derived for the description of nonequilibrium phenomena in classical liquids and glasses. With the help of a non equilibrium projection operator formalism, the correlation functions and fluctuation propagators are expressed in terms of memory functions and time dependent collective frequencies. This formally exact set of equations is approximated by applying mode coupling approximations to the memory functions. The resulting set of equations for wavevector dependent correlation functions, fluctuation propagators and one-time structure factors Sq(t) generalizes the well known mode coupling theory of the glass transition to situations far away from equilibrium.

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