We propose and test a new general approach to theLthinsp;2evaluation of quantum correlation functions for dissociative systems. This method introduces a split interaction representation (SIR) for the correlation function based on formally exact manipulations, and greatly enhances convergence of the correlation function with respect to the range of theLthinsp;2basis, by suppressing the spurious lsquo;lsquo;reflectionsrsquo;rsquo; from the lsquo;lsquo;edgesrsquo;rsquo; of the basis. The method is tested by applying it for the evaluation of flux autocorrelation function from which the quantal thermal rate constant is obtained by integrating it over time. Computations for the onehyphen;dimensional Eckart barrier show remarkable convergence of the flux autocorrelation function with respect to both the size and the range of the basis.
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