Shock Wave in a Nonlinear LC Circuit
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概要
- 論文の詳細を見る
A shock wave in a nonlinear LC circtnit with dissipation has been investigated theoreticallyand experimentally. A shock wave solution of a stationary waveform traveling with a constantvelocity and a higher-order correction have been obtained theoretically. In the experiment, it hasbeen demonstrated that a shock wave with a constant arnplittude propagates stably in a nonlinearLC circuit with dissipation. The velocity and width of the shock wave have been observed tobe consistent with the theoretical prediction, provided that the amplitude is small enough to beconsistent with the theoretical approxirnation.
- 社団法人日本物理学会の論文
- 1997-05-15
著者
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ISHIWATA Shingo
Department of Physics,Faculty of Engineering,Yokohama National University
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Watanabe Shinsuke
Department Of Energy Engineering Faculty Of Engineering Yokohama National University
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Kawaguchi Mayumi
Department Of Biochemistry And Cell Biology National Institute Of Health
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Kawaguchi Mayumi
Department Of Energy Engineering Faculty Of Engineering Yokohama National University
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Kawamura Katsuyuki
Department Of Earth And Planetary Science Tokyo Institute Of Technology
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Ohta Yuriko
Department Of Energy Engineering Faculty Of Engineering Yokohama National University
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Ohta Yuriko
Department Of Biochemistry Wakayama Medical University
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WATANBE Shinsuke
Department of Energy Engineering,Faculty of Engineering,Yokohama National University
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KAWAMURA Kstsuyuki
Department of Energy Engineering,Faculty of Engineering,Yokohama National University
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Geun Heung
Department of Energy Engineering,Faculty of Engineering,Yokohama National University
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Ishiwata Shingo
Department Of Energy Engineering Faculty Of Engineering Yokohama National University
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Geun Heung
Department Of Energy Engineering Faculty Of Engineering Yokohama National University
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Watanbe Shinsuke
Department Of Energy Engineering Faculty Of Engineering Yokohama National University
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ISHIWATA Shingo
Department of Energy Engineering,Faculty of Engineering,Yokohama National University
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OHTA Yuriko
Department of Energy Engineering,Faculty of Engineering,Yokohama National University
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KAWAGUCHI Mayumi
Department of Energy Engineering,Faculty of Engineering,Yokohama National University
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