Coupled-map-lattice model for spontaneous pore formation in anodic oxidation

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    3 Citations (Scopus)

    Abstract

    We construct a coupled map lattice model for spontaneous pore formation in anodic oxidation in two dimensions and perform numerical simulations, after we explain steady flat solutions, their linear stability, and a single pore solution for a model of Parkhutik and Shershulsky.

    Original languageEnglish
    Article number031603
    JournalPhysical Review E - Statistical, Nonlinear, and Soft Matter Physics
    Volume81
    Issue number3
    DOIs
    Publication statusPublished - Mar 22 2010

    Fingerprint

    Coupled Map Lattices
    Linear Stability
    Lattice Model
    Oxidation
    Two Dimensions
    porosity
    Numerical Simulation
    oxidation
    Model
    simulation

    All Science Journal Classification (ASJC) codes

    • Statistical and Nonlinear Physics
    • Statistics and Probability
    • Condensed Matter Physics

    Cite this

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    title = "Coupled-map-lattice model for spontaneous pore formation in anodic oxidation",
    abstract = "We construct a coupled map lattice model for spontaneous pore formation in anodic oxidation in two dimensions and perform numerical simulations, after we explain steady flat solutions, their linear stability, and a single pore solution for a model of Parkhutik and Shershulsky.",
    author = "Hidetsugu Sakaguchi and Jie Zhao",
    year = "2010",
    month = "3",
    day = "22",
    doi = "10.1103/PhysRevE.81.031603",
    language = "English",
    volume = "81",
    journal = "Physical Review E",
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    publisher = "American Physical Society",
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    AU - Sakaguchi, Hidetsugu

    AU - Zhao, Jie

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    N2 - We construct a coupled map lattice model for spontaneous pore formation in anodic oxidation in two dimensions and perform numerical simulations, after we explain steady flat solutions, their linear stability, and a single pore solution for a model of Parkhutik and Shershulsky.

    AB - We construct a coupled map lattice model for spontaneous pore formation in anodic oxidation in two dimensions and perform numerical simulations, after we explain steady flat solutions, their linear stability, and a single pore solution for a model of Parkhutik and Shershulsky.

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    JO - Physical Review E

    JF - Physical Review E

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