Experimental observation of defect pair separation triggering phase transitions

M. Cordin, B. A. J. Lechner, S. Duerrbeck, A. Menzel, E. Bertel (Corresponding author), J. Redinger, C. Franchini

Publications: Contribution to journalArticlePeer Reviewed

Abstract

First-order phase transitions typically exhibit a significant hysteresis resulting for instance in boiling retardation and supercooling. The hysteresis arises, because nucleation of the new phase is activated. The free-energy change is positive until the nucleus reaches a critical size beyond which further growth is downhill. In practice, the barrier is often circumvented by the presence of heterogeneous nucleation centres, e. g. at vessel walls or seed crystals. Recently, it has been proposed that the homogeneous melting of ice proceeds via separation of defect pairs with a substantially smaller barrier as compared to the mere aggregation of defects. Here we report the observation of an analogous mechanism catalysing a two-dimensional homogeneous phase transition. A similar process is believed to occur in spin systems. This suggests that separation of defect pairs is a common trigger for phase transitions. Partially circumventing the activation barrier it reduces the hysteresis and may promote fluctuations within a temperature range increasing with decreasing dimensionality.
Original languageEnglish
Article number4110
Number of pages4
JournalScientific Reports
Volume4
DOIs
Publication statusPublished - 12 Mar 2014

Austrian Fields of Science 2012

  • 103009 Solid state physics
  • 103015 Condensed matter
  • 103025 Quantum mechanics
  • 103036 Theoretical physics

Keywords

  • DYNAMICS
  • SYSTEMS

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