FORMA
Online ISSN : 2189-1311
Print ISSN : 0911-6036
Volume 30, Issue 2
Special Issue: Key Concepts of Science of Forms—Physics and Chemistry
Displaying 1-17 of 17 articles from this issue
Preface
  • Ryuji Takaki
    2015 Volume 30 Issue 2 Pages Sp
    Published: 2015
    Released on J-STAGE: August 21, 2023
    JOURNAL FREE ACCESS

    We have published "Key Concepts of Science of Forms —Biological and Medical Fields" as a Special Issue of Forma, Vol. 27, 2012. It was composed of translations of some articles from the part of biology and medicine in the "Encyclopedia of Science of Forms" published in 2004 by Asakura Shoten Co. Ltd. This Encyclopedia has some other parts, such as physics, chemistry, geology, astronomy, mathematics and technology. In the present issue articles from physics and chemistry are picked up. However, the articles concerned to crystals are not included; a new issue for this field will be scheduled in future. Some translations are published as review articles because their contents are enriched by adding new topics.

    Now, we hope that readers enjoy reading this special issue.

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Review
  • Eiji Ōsawa
    Article type: research-article
    2015 Volume 30 Issue 2 Pages S1-S5
    Published: 2015
    Released on J-STAGE: August 21, 2023
    JOURNAL FREE ACCESS

    A large variety of polyhedral carbon forms, based on closed network of 5/6 rings of carbon, was discovered near the end of 20th century and named fullerenes. Typical forms of the members of fullerenes, including C60, carbon nanotubes and carbon nano-onions are briefly introduced. In spite of unprecedented vigor in research and developmental activities into the properties and applications of fullerenes, the origin of exotic forms in fullerenes still remains unknown. We propose here that the fullerenes could be the results of crystallization of complex plasma of carbon. Close analogy between carbon nano-onions and mm-sized Coulomb balls is mentioned. The latters are nested spherical shells consisting of micron-sized plastic spheres and crystallized in spherical potential field.

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  • An-Pang Tsai
    Article type: research-article
    2015 Volume 30 Issue 2 Pages S7-S16
    Published: 2015
    Released on J-STAGE: August 21, 2023
    JOURNAL FREE ACCESS

    Quasicrystals display diffraction patterns with symmetries forbidden in crystallography, and quasi-periodicity, have been found to be stable phases in several alloy systems. Thanks to their stability, one can grow single grained quasicrystals with large scale. In this article, we will first make a brief introduction to quasicrystals and describe the state of the art of structure for icosahedral quasicrystal. The morphologies of icosahedral quasicrystals are discussed in terms of atomic structures, surface structures and crystal growth mechanism.

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  • Sasuke Miyazima
    Article type: research-article
    2015 Volume 30 Issue 2 Pages S17-S23
    Published: 2015
    Released on J-STAGE: August 21, 2023
    JOURNAL FREE ACCESS

    Percolation model is one of the most foundamental models holding important concept such as phase transition, growth phenomena, universality, and also it provides clues for studies of transport coefficients of porous media, forest fire, epidemics in an orchard, networks and so on. There are mainly two types of percolation models, discrete percolation model and continuum percolation model. The former is based on a lattice structure, where some exact solutions are found, while the latter on continuum space, where more experimental investigations are expected.

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  • Ryuji Takaki
    Article type: research-article
    2015 Volume 30 Issue 2 Pages S25-S32
    Published: 2015
    Released on J-STAGE: August 21, 2023
    JOURNAL FREE ACCESS

    Dynamics of vortices of filament type is introduced for the following three cases: deformation of a vortex filament by self-induction, entanglement of two vortex filaments by self-and mutual inductions and reconnection of two vortex filaments. The first two cases are treated by the use of vorticity equation without the viscous term, while the third one requires a treatment with the effect of viscosity.

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  • Hidetoshi Miike, Tatsunari Sakurai, Atsushi Nomura, Stefan C. Müller
    Article type: research-article
    2015 Volume 30 Issue 2 Pages S33-S53
    Published: 2015
    Released on J-STAGE: August 21, 2023
    JOURNAL FREE ACCESS

    In this work we review recent developments of experimental studies on chemically driven convection (CDC) emerging in a thin solution layer of the Belousov-Zhabotinsky reaction. Firstly, there are solitary waves due to convections and oscillatory or rotating convections accompanied by phase waves leading to global flow-pattern dynamics (called "flow waves"). The mechanism to realize the coherency and/or synchrony of such hydrodynamic patterns has not been established yet. Secondly, we summarize several models explaining some of these dynamics and show problems of the models. Especially, we emphasize the role of synchrony among nonlinear oscillators to establish hierarchical pattern dynamics of chemical wave trains and the flow waves. Thirdly, we demonstrate several examples of evolutionary pattern dynamics induced by CDCs in a batch reactor. In the reactor, the emerging phenomena show temporal development and evolutionary pattern dynamics. The direction of this development is from simple to complex, which looks like an evolution emerging in a real reaction-diffusion-convection system.

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