ABSTRACT High-resolution gamma-ray diffraction in combination with in situ impedance spectroscopy has been used to characterize the lock-in transition in high-quality (K1-xRbx)2ZnCl4 mixed crystals with different doping levels x (0… Click to show full abstract
ABSTRACT High-resolution gamma-ray diffraction in combination with in situ impedance spectroscopy has been used to characterize the lock-in transition in high-quality (K1-xRbx)2ZnCl4 mixed crystals with different doping levels x (0 < x < 7.5%). It is shown that the phase transition becomes extremely sluggish if the defect concentration is increased. While the incommensurate phase is destroyed quite rapidly, the adaption of the stable and well-ordered commensurate structure takes several days. In between there is a strongly disordered phase characterized by residual discommensurations which are pinned by the impurity defects. By careful preparation of the samples and consideration of the kinetic behavior, the lock-in transition and the interesting regime just above Tc where polar nanodomains exist can be shifted towards room temperature.
               
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