Structures and Phases in (Nano-) Systems in Confined Geometry

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2016
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BINDER, Klaus, ed., Marcus MÜLLER, ed., Manfred KREMER, ed., Alexander SCHNURPFEIL, ed.. NIC Symposium 2016 : Proceedings. Jülich: Forschungszentrum Jülich, 2016, pp. 229-239. NIC Series. 48. ISBN 978-3-95806-109-5
Zusammenfassung

Computer simulations by members of the NIC-project HMZ07 are reviewed. Structural and transport properties have been investigated in atomic wires by Molecular Dynamics and electronic transport methods and in model colloids by Brownian Dynamics. Nano-alloys and nanoresonators have been analysed by Molecular Dynamics and path integral Monte Carlo. Spinodal decomposition and domain growth of liquid-vapour systems and galaxy magnetism have been studied by hydrodynamics simulations, and nucleation phenomena in lattice systems by rare event methods.

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530 Physik
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NIC Symposium 2016, 11. Feb. 2016 - 12. Feb. 2016, Jülich
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ISO 690BECK, Marcus C., Andreas HALLER, Daniel KAWETZKI, Manuel MATT, Martin PÜTZ, Markus RING, Ralf SCHMID, Kristian SCHOLZ, Ullrich SIEMS, Peter NIELABA, 2016. Structures and Phases in (Nano-) Systems in Confined Geometry. NIC Symposium 2016. Jülich, 11. Feb. 2016 - 12. Feb. 2016. In: BINDER, Klaus, ed., Marcus MÜLLER, ed., Manfred KREMER, ed., Alexander SCHNURPFEIL, ed.. NIC Symposium 2016 : Proceedings. Jülich: Forschungszentrum Jülich, 2016, pp. 229-239. NIC Series. 48. ISBN 978-3-95806-109-5
BibTex
@inproceedings{Beck2016Struc-33974,
  year={2016},
  title={Structures and Phases in (Nano-) Systems in Confined Geometry},
  url={http://hdl.handle.net/2128/9842},
  number={48},
  isbn={978-3-95806-109-5},
  publisher={Forschungszentrum Jülich},
  address={Jülich},
  series={NIC Series},
  booktitle={NIC Symposium 2016 : Proceedings},
  pages={229--239},
  editor={Binder, Klaus and Müller, Marcus and Kremer, Manfred and Schnurpfeil, Alexander},
  author={Beck, Marcus C. and Haller, Andreas and Kawetzki, Daniel and Matt, Manuel and Pütz, Martin and Ring, Markus and Schmid, Ralf and Scholz, Kristian and Siems, Ullrich and Nielaba, Peter}
}
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