Publications (5)3.27 Total impact
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Article: Mesoscopic phases and characteristics of nano‐structured interfaces
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ABSTRACT: Mesoscopic phases and characteristics of nano-structured interfaces are derived using renormalizing methods. Many mesoscopic phases arise, and properties for each mesoscopic phase are represented with universal homogeneous functions and characteristic exponents. It may be possible to control the characteristics of nano-structured interfaces by external fields. Copyright © 2006 John Wiley & Sons, Ltd.Surface and Interface Analysis 04/2006; 38(6):1068 - 1072. · 1.18 Impact Factor -
Chapter: Visualization of microstructures of economic flows and adaptive control
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ABSTRACT: Economic flows are modeled based on the microscopic particle pictures, and studied by renormalized stochastic dynamics and simulations. From the universal behavior obtained, every catastrophic behavior of the flows may be understood, as well as which sub-system is concerned and how to avoid it by suitable control measures.12/2005: pages 386-390; -
Article: Mesoscopic Relaxation and Elastic Properties of Two Dimensional Magnetic Nano Structured Materials
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ABSTRACT: Theoretical studies and computational results of the thermodynamic and structural properties in magnetoelastic nano structured materials were reported in the previous two papers. Properties of mesoscopic relaxation, magnetoelastic interaction coefficient dependences and influences of multi grains, in the magnetoelastic nano structured materials are investigated. Quantum effects dominant on nano-meter scale are briefly discussed.Journal of Computational and Theoretical Nanoscience 05/2005; 2(2):277-286. · 0.91 Impact Factor -
Article: Mesoscopic phase transition of nanostructured materials: construction of computer experimental systems and synthesis and control of functional properties
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ABSTRACT: Mesoscopic phase transitions and critical behaviour of nanostructured materials are discussed, together with the design of computer experimental systems and the synthesis and control of functional properties. The systems considered here have either two or three-dimensional structural, magnetic or fractured character with nanometre-sized grains and interfaces. The interactions are taken into account up to the third nearest neighbour by means of Lennard–Jones-like potentials. The following problems are studied; how to investigate nanostructured materials, how to compute the metastable mesoscopic behaviour, and how to construct suitable computer experimental systems by Monte-Carlo methods. The data obtained are reported in the form of fundamental theoretical and computational results of non-equilibrium, local nanostructural properties. Copyright © 2004 John Wiley & Sons, Ltd.Surface and Interface Analysis 03/2004; 36(2):177 - 183. · 1.18 Impact Factor -
Article: Universal characteristics and function-control of nanostructured materials
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ABSTRACT: The aim of this paper is to summarize representative nanostructured material properties and to focus on interfaces and surfaces, using computer simulations and renormalizing methods. Universal characteristics for every mesoscopic phase of nanostructured materials were derived, using these approaches. The universal homogeneous-functions and characteristic exponents of representative systems are summarized. By utilizing these results, which are necessary for smart materials/smart fabrications, the nanostructured materials for various uses may be plausible to be fabricated, controlled or manipulated.Thin Solid Films.
Top co-authors
Top Journals
Institutions
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2004–2006
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Peking University
- School of Physics
Beijing, Beijing Shi, China
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2005
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Peking University School of Stomatology
Beijing, Beijing Shi, China
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