Phase-field-crystal models for condensed matter dynamics on atomic length and diffusive time scales: an overview |
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Authors: | Heike Emmerich Raphael Wittkowski Thomas Gruhn Gyula I. Tóth György Tegze |
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Affiliation: | 1. Lehrstuhl für Material- und Prozesssimulation , Universit?t Bayreuth , D-95440 , Bayreuth , Germany heike.emmerich@uni-bayreuth.de;3. Institut für Theoretische Physik II, Weiche Materie, Heinrich-Heine-Universit?t Düsseldorf , D-40225 , Düsseldorf , Germany;4. Lehrstuhl für Material- und Prozesssimulation , Universit?t Bayreuth , D-95440 , Bayreuth , Germany;5. Institute for Solid State Physics and Optics, Wigner Research Centre for Physics , PO Box 49, H-1525, Budapest , Hungary |
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Abstract: | Here, we review the basic concepts and applications of the phase-field-crystal (PFC) method, which is one of the latest simulation methodologies in materials science for problems, where atomic- and microscales are tightly coupled. The PFC method operates on atomic length and diffusive time scales, and thus constitutes a computationally efficient alternative to molecular simulation methods. Its intense development in materials science started fairly recently following the work by Elder et al. [Phys. Rev. Lett. 88 (2002), p. 245701]. Since these initial studies, dynamical density functional theory and thermodynamic concepts have been linked to the PFC approach to serve as further theoretical fundamentals for the latter. In this review, we summarize these methodological development steps as well as the most important applications of the PFC method with a special focus on the interaction of development steps taken in hard and soft matter physics, respectively. Doing so, we hope to present today's state of the art in PFC modelling as well as the potential, which might still arise from this method in physics and materials science in the nearby future. |
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Keywords: | 64.70.D- Solid–liquid transitions 81.10.Aj Theory and models of crystal growth physics and chemistry of crystal growth crystal morphology and orientation 68.08.-p Liquid–solid interfaces 61.30.-v Liquid crystals |
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