Random walk analysis of the collective cosine formulation of correlation effects in atom transport in a concentrated alloy

Abstract

The phenomenological coefficients L_ij, which are defined in non-equilibrium thermodynamics and which characterize atom transport near thermodynamic equilibrium, can be expanded in terms of so-called collective cosines. A typical such quantity is (cos θ_ji ⁽ⁿ⁾) which is defined as the average of the cosine of the angle between the direction of an initial jump of an atom of species j and a final jump of an atom of species i when there are exactly n jumps of atoms of species i following the initial j atom jump and n = 1,2,3,…New exact relations between the four quantities (cos θ_ji ⁽ⁿ⁾), for i,j = A,B and arbitrary n are derived for a binary random alloy of two atomic species (A,B) with transport by a very small concentration of vacancies. A new simplified formula for the off-diagonal coefficient L_ij,j ≠ i, is also derived in terms of these collective cosines. The approximate calculation of the collective cosines by enumeration of random walks is examined; results for n = 1,2 and 3 are in very good agreement with earlier Monte Carlo simulation results for jump frequency ratios of the two atom components of 0·1 and 0·01.