Numerical Studies of Collective Effects in Nano-Systems

M. Dreher (), D. Fischer (), K. Franzrahe (), G. Günther (), P. Henseler (), J. Hoffmann (), W. Strepp () and P. Nielaba ()
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M. Dreher: University of Konstanz, Physics Department (Theory)
D. Fischer: University of Konstanz, Physics Department (Theory)
K. Franzrahe: University of Konstanz, Physics Department (Theory)
G. Günther: University of Konstanz, Physics Department (Theory)
P. Henseler: University of Konstanz, Physics Department (Theory)
J. Hoffmann: University of Konstanz, Physics Department (Theory)
W. Strepp: University of Konstanz, Physics Department (Theory)
P. Nielaba: University of Konstanz, Physics Department (Theory)

A chapter in High Performance Computing in Science and Engineering ’03, 2003, pp 139-153 from Springer

Abstract: Summary We have studied quantum effects, structures and phase transitions in Nano-systems. In the following sections an overview is given on the results of our computations on atomic wires, clusters, pore condensates, Bose fluids, elastic properties of model colloids and model colloids in external fields.

Keywords: Partition Function; Collective Effect; Potential Amplitude; Superfluid Fraction; Model Colloid (search for similar items in EconPapers)
Date: 2003
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Persistent link: https://EconPapers.repec.org/RePEc:spr:sprchp:978-3-642-55876-4_11

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DOI: 10.1007/978-3-642-55876-4_11

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