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Consider a scalar conservation law with a spatially discontinuous flux at a single point x=0, and assume that the flux is uniformly convex when x 0. Given an interface connection (A, B), we define a backward solution operator consistent with the concept of AB-entropy solution 4, 13, 16. We then analyze the family A^AB (T) of profiles that can be attained at time T>0 by AB-entropy solutions with L^-initial data. We provide a characterization of A^AB (T) as fixed points of the backward-forward solution operator. As an intermediate step we establish a full characterization of A^AB (T) in terms of unilateral constraints and Ole-type estimates, valid for all connections. Building on such a characterization we derive uniform BV bounds on the flux of AB-entropy solutions, which in turn yield the L¹₋₎₂-Lipschitz continuity in time of these solutions.
Ancona et al. (Fri,) studied this question.