Ferroelastic domain wall motion and collective domain switching in RbSCN

Abstract

Low frequency (0.05 - 40 Hz) dynamic elastic measurements and resonant ultrasound spectroscopy measurements (100-600 kHz) of RbSCN have been performed in the temperature region of the order-disorder improper ferroelastic phase transition at Tc ≈ 435~K. Quite similar to KSCN, the low frequency data show - in addition to the intrinsic phase transition anomalies - superelastic softening in a- and b-directions, resulting from movements of ferroelastic domain walls under dynamic stress. However, in contrast to KSCN, a sudden discontinuous increase of Young's modulus appears in RbSCN at T < Tc , which is accompanied by a frequency dependent damping peak. This behaviour is reminiscent of a first order phase transition.\\ Heating RbSCN slightly above T, followed by subseqent cooling, removes all signs of domain wall dynamics. The results demonstrate, that the anomalies in RbSCN around T result from collective domain switching events that are induced when the temperature dependent critical pinning stress, σc(T) falls below the applied external stress σ, implying that T(σ=σc). This interpretation is supported by calculations of the temperature dependences of twin boundary widths w and energies Fw, as well as the Peierls potential V0 using a compressible pseudospin model, which leads to a critical pinning stress, σc(T) that is in excellent agreement with experimental values of T(σc).