Quantum plasticity and dislocation-induced supersolidity
Abstract
We suggest that below a certain temperature Tk, the free energy for the creation of kinks-antikinks pairs in the dislocation network of solid He4 becomes negative. The underlying physical mechanism is the related liberation of vacancies which initiate Feynman's permutation cycles in the bulk. Consequently, dislocations should wander and sweep an increasingly larger volume at low temperatures. This phenomenon should lead both to a stiffening of the solid below Tk and to the appearance of a non zero superfluid fraction at a second temperature Tc < Tk.
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