Critical Phenomena in Two-Dimensional Incompressible Flows
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概要
- 論文の詳細を見る
Classical fluids can undergo a second order phase transition under a twodimensional flow of the form u(r)=(S+A)ye_x+(S-A)xe_y, e_x and e_y being the unit vectors along the x- and y-axes, respectively. The flow is called rotational for A>S-__>0 and elongational for S>A-__>0, while it reduces to a shear flow for A=S. When the reduced temperature is made smaller than a crossover reduced temperature, critical fluctuations with wave numbers smaller than a characteristic wave number become significantly distorted by the flow The steady state variances of these critical fluctuations are calculated in the mean field approximation. It is found that these large scale fluctuations can be treated by the mean field approximation above a certain spatial dimensionality, which is the new critical dimensionality in the presence of flow. It remains 4 for the rotational case, but is reduced to 2.4 and 2 for the cases of shear flow and elongational flow, respectively.
- 理論物理学刊行会の論文
- 1981-06-10
著者
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Onuki Akira
Department Of Physics Kyoto University
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KAWASAKI Kyozi
Faculty of Engineering, Chubu University
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Kawasaki Kyozi
Department Of Physics Kyushu University 33
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Kawasaki Kyozi
Department Of Applied Physics Faculty Of Engineering Nagoya University
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Onuki Akira
Department Of Physics Faculty Of Science University Of Tokyo:department Of Physics Kyushu University
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Onuki Akira
Department Of Physics Kyushu University 33
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ONUKI Akira
Department of Physics, Kyushu University 33
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ONUKI Akira
Research Institute for Fundamental Physics, Kyoto University
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KAWASAKI Kyozi
Department of Natural Science and Mathematics, Chubu University
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