Kanka Ghosh, Oguz Umut Salman, Sylvain Queyreau, Lev Truskinovsky
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We use molecular dynamics to show that plastic slip is a crucial component of
the transformation mechanism of a square-to-triangular structural transition.
The latter is a stylized analog of many other reconstructive phase transitions.
To justify our conclusions we use a novel atomistically-informed mesoscopic
representation of the field of lattice distortions in molecular dynamics
simulations. Our approach reveals a hidden alternating slip distribution behind
the seemingly homogeneous product phase which points to the fact that lattice
invariant shears play a central role in this class of phase transformations.
While the underlying pattern of anti-parallel displacements may also be
interpreted as microscopic shuffling, its precise crystallographic nature
strongly suggests the plasticity-centered interpretation.
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