The spin-echo experiments and the second law of thermodynamics

We introduce a simple model for so-called spin-echo experiments. We show that the model is a mincing system. On the basis of this model we study fine-grained entropy and coarse-grained entropy descriptions of these experiments. The coarse-grained description is shown to be unable to provide an explanation of the echo signals, as a result of the way in which it ignores dynamically generated correlations. This conclusion is extended to the general debate on the foundations of statistical mechanics. We emphasize the need for an appropriate mechanism to explain the gradual suppression overtime of the correlations in a thermodynamic system. We argue that such a mechanism can only be provided by the interventionist approach, in which the interaction of the system with its environment is taken into account. Irreversible behavior is then seen to arise not as a result of limited measurement accuracy, but as a result of the fact that thermodynamic systems ale limited systems which interact with their environment, A detailed discussion is given of recent objections to the interventionist approach in the literature.