The topology of the energy landscape of sheared amorphous solids and the irreversibility transition

Reversible plastic events allow amorphous solids to retain memory of past deformations while irreversible plastic events are responsible for structural evolution and are associated with yielding. Here we use numerical simulations to extract the topology of networks of plastic transitions of amorphous solids and show that the strongly connected components (SCCs) of these networks can be used to distinguish reversible from irreversible events. This approach allows us to predict the memory capacity of amorphous solids and provides a framework for understanding the irreversibility transition under oscillatory shear. Our findings should be useful for understanding better recent experiments on memory retention and yielding in granular media and amorphous solids.